UniProt ID
stringlengths 6
10
| Protein Sequence
stringlengths 2
35.2k
| Functional Description
stringlengths 5
30.7k
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Q4R930
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MDALEEESFALSFSSASDAEFDAVVGYLEDIIMDDEFQLLQRNFMDKYYLEFEDTEENKLTYTPIFNEYISLVEKYIEEQLLQRIPGFNMAAFTTTLQHHKDEVAGDIFDMLLTFTDFLAFKEMFLDYRAEKEGRGLDLSSGLVVTSLCKSSSVSASQNNLRH
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Together with ARL2, plays a role in the nuclear translocation, retention and transcriptional activity of STAT3. May play a role as an effector of ARL2 (By similarity). Interacts with GTP bound ARL2 and ARL3; the complex ARL2-ARL2BP as well as ARL2BP alone, binds to SLC25A4/ANT1. Interaction with ARL2 may be required for cilia basal body localization (By similarity). Interacts with STAT3; interaction is enhanced with ARL2. Found in a complex with ARL2BP, ARL2 and SLC25A6. Found in a complex with ARL2, ARL2BP and SLC25A4. Interacts with STAT2, STAT3 and STAT4. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules. In retina photoreceptor cells, localized in the distal connecting cilia, basal body, ciliary-associated centriole, and ciliary rootlet. Interaction with ARL2 may be required for cilia basal body localization (By similarity). The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria (By similarity). Belongs to the ARL2BP family.
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Q9CQW6
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MDALEEESFALSFSSASDAEFDAVVGCLEDIIMDDEFQLLQRNFMDKYYQEFEDTEENKLTYTPIFNEYISLVEKYIEEQLLERIPGFNMAAFTTTLQHHKDEVAGDIFDMLLTFTDFLAFKEMFLDYRAEKEGRGLDLSSGLVVTSLCKSSSTPASQNNLRH
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Together with ARL2, plays a role in the nuclear translocation, retention and transcriptional activity of STAT3. May play a role as an effector of ARL2 (By similarity). Interacts with GTP bound ARL2 and ARL3; the complex ARL2-ARL2BP as well as ARL2BP alone, binds to SLC25A4/ANT1. Interaction with ARL2 may be required for targeting to cilia basal body (By similarity). Interacts with STAT3; interaction is enhanced with ARL2. Found in a complex with ARL2BP, ARL2 and SLC25A6 (By similarity). Found in a complex with ARL2, ARL2BP and SLC25A4. Interacts with STAT2, STAT3 and STAT4. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules (By similarity). The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria. In retina photoreceptor cells, localized in the distal connecting cilia, basal body, ciliary-associated centriole, and ciliary rootlet. Interaction with ARL2 may be required for cilia basal body localization (By similarity). Widely expressed, with most abundant activity in brain, especially in hippocampus and cortex. Also expressed in lung, cerebellum, liver, kidney, retina, spleen, muscle and heart (at protein level). Belongs to the ARL2BP family.
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Q5R9K8
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MDALEEESFALSFSSTSDAEFDAVVGYLEDIIMDDEFQLLQRNFMDKYYLEFEDTEENKLIYTPIFNEYISLVEKYIEEQLLQRIPGFNMAAFTTTLQHHKDEVAGDIFDMLLTFTDFLAFKEMFLDYRAEKEGRGLDLSSGLVVTSLCKSSSLPASQNNLRH
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Together with ARL2, plays a role in the nuclear translocation, retention and transcriptional activity of STAT3. May play a role as an effector of ARL2 (By similarity). Interacts with GTP bound ARL2 and ARL3; the complex ARL2-ARL2BP as well as ARL2BP alone, binds to SLC25A4/ANT1. Interaction with ARL2 may be required for cilia basal body localization (By similarity). Interacts with STAT3; interaction is enhanced with ARL2. Found in a complex with ARL2BP, ARL2 and SLC25A6. Found in a complex with ARL2, ARL2BP and SLC25A4. Interacts with STAT2, STAT3 and STAT4. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules. In retina photoreceptor cells, localized in the distal connecting cilia, basal body, ciliary-associated centriole, and ciliary rootlet. Interaction with ARL2 may be required for cilia basal body localization (By similarity). The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria (By similarity). Belongs to the ARL2BP family.
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Q4V8C5
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MDALEEESFALSFSSASDAEFDAVVGCLEDIIMDAEFQLLQRSFMDKYYQEFEDTEENKLTYTPIFNEYISLVEKYIEEQLLERIPGFNMAAFTTTLQHHKDEVAGDIFDMLLTFTDFLAFKEMFLDYRAEKEGRGLDLSSGLVVTSLCKSSSTPASQNNLRH
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Together with ARL2, plays a role in the nuclear translocation, retention and transcriptional activity of STAT3. May play a role as an effector of ARL2 (By similarity). Interacts with GTP bound ARL2 and ARL3; the complex ARL2-ARL2BP as well as ARL2BP alone, binds to SLC25A4/ANT1. Interaction with ARL2 may be required for cilia basal body localization (By similarity). Interacts with STAT3; interaction is enhanced with ARL2. Found in a complex with ARL2BP, ARL2 and SLC25A6. Found in a complex with ARL2, ARL2BP and SLC25A4. Interacts with STAT2, STAT3 and STAT4. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules. In retina photoreceptor cells, localized in the distal connecting cilia, basal body, ciliary-associated centriole, and ciliary rootlet. Interaction with ARL2 may be required for cilia basal body localization (By similarity). The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria (By similarity). Ubiquitous with higher expression in brain, especially in hippocampus and cortex. Also expressed in lung, cerebellum, liver, kidney, spleen and heart (at protein level). Belongs to the ARL2BP family.
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Q6GLJ7
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MEDLEEENFSLSVSSPKDAEFDNVVGHLEDIIMDDEFQLLQHGFMDKHYHEFEDTEENKLTYTTIFNEYIGLVEKYIEEQLLQRIPAFDMSAFTSSLQCHREEIAGDIFDILLTFTDFLAFKEMFLDYKAEKEGRTVDLGCGLVVTSLMSSSISSS
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Plays a role as an effector of the ADP-ribosylation factor-like protein 2, ARL2. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules. The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria (By similarity). Belongs to the ARL2BP family.
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Q5FW25
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MEDLEEENFTLSVSSPKDAEFDSVVGHMEDIIMDDEFQLLQHGFMDKYYHEFEDTEENKLTYTTIFNEYIGLVEKFIEEQLLLRIPAFNMSAFISSLQCHREEIAGDIFDILLTFTDFLAFKEMFLDYKAEKEGRTVDLSCGLVVTPLIGSSVSSSS
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Plays a role as an effector of the ADP-ribosylation factor-like protein 2, ARL2. Detected in the midbody matrix. Not detected in the Golgi, nucleus and on the mitotic spindle. Centrosome-associated throughout the cell cycle. Not detected to interphase microtubules. The complex formed with ARL2BP, ARL2 and SLC25A4 is expressed in mitochondria (By similarity). Belongs to the ARL2BP family.
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Q42460
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MASSKLLSLALFLVLLTHANSATETSFNFPNFHTDDKLILQGNATISSKGQLQLTGVGSNELPRVDSLGRAFYSDPIQIKDSNNVASFNTNFTFIIRAKNQSISAYGLAFALVPVNSPPQKKQEFLGIFNTNNPEPNARTVAVVFNTFKNRIDFDKNFIKPYVNENCDFHKYNGEKTDVQITYDSSNNDLRVFLHFTVSQVKCSVSATVHLEKEVDEWVSVGFSATSGLTEDTTETHDVLSWSFSSKFRNKLSNILLNNIL
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Seed storage. This carbohydrate-binding lectin has toxic effects on bean bruchid pests. Monomer. The C-terminal segment appears to be highly susceptible to proteolysis. Belongs to the leguminous lectin family.
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Q41116
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MASSKLLSLALFLVLLTHANSATETSFNFPNFHTDDKLILQGDATISSKGQLRLTGVTPNGDPRVDSMGRAFYSDPIQIKDSNNVASFNTNFTFIIRTKNQSISAYGLAFALVRVNSPPQKKQEFLGIFNTNNPEPNARTVAVVFNTFKNRIDFDKNFIKPYVNENCDFHKYNGEKTDVQITYDSSNNDLRVFLHFTVSQVKCSVSATVHLEKEVDEWVSVGFSPTSGLTEDTTETHDVLSWSFSSKFRNKLSNILLNNIL
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Seed storage. This carbohydrate-binding lectin has toxic effects on bean bruchid pests. Monomer. Belongs to the leguminous lectin family.
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Q9VES1
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MAASQVDQKRALNKLKHDLEPFRTAIVGAYGVLTWEKQYYAGVVFGVISCLYLVLWYLDLSLITLLSLLGVISILLNYAFPMVSRLIFGGVNWDGDQEAKFEDVCGQVCAVKGSLVVWYEYLFNERKSTVFVIVMSLGLLAMAWIGAIINNLLLMYLATLLILMWPGLQNKDIFKAITQRASKIINEKIQCGKRKLQ
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Belongs to the ARL6ip family.
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F5GXP4
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MAEGDNRSTNLLAAETASLEEQLQGWGEVMLMADKVLRWERAWFPPAIMGVVSLVFLIIYYLDPSVLSGVSCFVMFLCLADYLVPILAPRIFGSNKWTTEQQQRFHEICSNLVKTRRRAVGWWKRLFTLKEEKPKMYFMTMIVSLAAVAWVGQQVHNLLLTYLIVTSLLLLPGLNQHGIILKYIGMAKREINKLLKQKEKKNE
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Positively regulates SLC1A1/EAAC1-mediated glutamate transport by increasing its affinity for glutamate in a PKC activity-dependent manner. Promotes the catalytic efficiency of SLC1A1/EAAC1 probably by reducing its interaction with ARL6IP5, a negative regulator of SLC1A1/EAAC1-mediated glutamate transport (By similarity). Plays a role in the formation and stabilization of endoplasmic reticulum tubules (PubMed:24262037). Negatively regulates apoptosis, possibly by modulating the activity of caspase-9 (CASP9). Inhibits cleavage of CASP9-dependent substrates and downstream markers of apoptosis but not CASP9 itself (PubMed:12754298). May be involved in protein transport, membrane trafficking, or cell signaling during hematopoietic maturation (PubMed:10995579). Homooligomer (PubMed:24262037). Heterodimer with ARL6IP5. Interacts with ARL6 (By similarity). Interacts with TMEM33 (PubMed:25612671). Interacts with ATL1 (PubMed:24262037). Predominantly localized to intracytoplasmic membranes. Preferentially localizes at the ER tubules and the edge of the ER sheets, both of which are characterized by a high membrane curvature. Expressed in all hematopoietic cell lineages, but the highest level of expression is found in early myeloid progenitor cells. Expressed in brain, bone marrow, thymus and lung. Expressed at low level in liver, kidney and spleen. Not detected in heart. Down-regulated during myeloid differentiation. Down-regulated by apoptotic stimuli. The transmembrane domains are required for its ability to shape the endoplasmic reticulum membrane into tubules. The disease is caused by variants affecting the gene represented in this entry. Belongs to the ARL6ip family. Truncated N-terminus.
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Q9WUG3
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MAEGDNRSSNLLAVETASLEEQLQGWGEVMLMADKVLRWERAWFPPAIMGVVSLLFLIIYYLDPSVLSGVSCFVMFLCLADYLVPILAPRIFGSNKWTTEQQQRFHEICSNLVKTRRRAVGWWKRLFSLKEEKPKMYFMTMIISLAAVAWVGQQVHNLLLTYLIVTFVLLLPGLNQHGIILKYIGMAKREINKLLKQKEKKNE
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Positively regulates SLC1A1/EAAC1-mediated glutamate transport by increasing its affinity for glutamate in a PKC activity-dependent manner. Promotes the catalytic efficiency of SLC1A1/EAAC1 probably by reducing its interaction with ARL6IP5, a negative regulator of SLC1A1/EAAC1-mediated glutamate transport (PubMed:18684713). Plays a role in the formation and stabilization of endoplasmic reticulum tubules. Negatively regulates apoptosis, possibly by modulating the activity of caspase-9 (CASP9). Inhibits cleavage of CASP9-dependent substrates and downstream markers of apoptosis but not CASP9 itself. May be involved in protein transport, membrane trafficking, or cell signaling during hematopoietic maturation (By similarity). Homooligomer (By similarity). Heterodimer with ARL6IP5 (PubMed:18684713). Interacts with ARL6 (PubMed:10508919). Interacts with TMEM33. Interacts with ATL1 (By similarity). Predominantly localized to intracytoplasmic membranes. Preferentially localizes at the ER tubules and the edge of the ER sheets, both of which are characterized by a high membrane curvature. Expressed in the cerebral cortex, cerebellum, hippocampus, olfactory bulbs, medulla oblongate and limbic system (at protein level). Ubiquitous (PubMed:18684713). Expressed in all hematopoietic cell lineages, with highest levels in early myeloid progenitor cells. The transmembrane domains are required for its ability to shape the endoplasmic reticulum membrane into tubules. Belongs to the ARL6ip family.
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Q5R454
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MAEGDNRSSNLLAAETASLEEQLQGWGEVMLMADKVLRWERAWFPPAIMGVVSLVFLIIYYLDPSVLSGVSCFVMFLCLADYLVPILAPRIFGSNKWTTEQQQRFHEICSNLVKTRRRAVGWWKRLFTLKEEKPKMYFMTMIVSLAAVAWVGQQVHNLLLTYLIVTSLLLLPGLNQHGIISKYIGMAKREINKLLKQKEKKNE
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Positively regulates SLC1A1/EAAC1-mediated glutamate transport by increasing its affinity for glutamate in a PKC activity-dependent manner. Promotes the catalytic efficiency of SLC1A1/EAAC1 probably by reducing its interaction with ARL6IP5, a negative regulator of SLC1A1/EAAC1-mediated glutamate transport. Plays a role in the formation and stabilization of endoplasmic reticulum tubules. Negatively regulates apoptosis, possibly by modulating the activity of caspase-9 (CASP9). Inhibits cleavage of CASP9-dependent substrates and downstream markers of apoptosis but not CASP9 itself. May be involved in protein transport, membrane trafficking, or cell signaling during hematopoietic maturation. Homooligomer. Heterodimer with ARL6IP5. Interacts with ATL1, TMEM33 and ARL6. Predominantly localized to intracytoplasmic membranes. Preferentially localizes at the ER tubules and the edge of the ER sheets, both of which are characterized by a high membrane curvature. The transmembrane domains are required for its ability to shape the endoplasmic reticulum membrane into tubules. Belongs to the ARL6ip family.
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Q5F4A9
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MARGRSRKRSRSSSRSPSGSGREKGGARSSAASPGPRHRLSSAAAREGRKKEGRKKKKRKAKASSSDRSSSSRSSSSSSSTSSSDSDTRAKQHSRRKRGKHKDKKKKKKMKKKLKKKSKERVKEERGVSEALPGPSLELWQKEPLADSGPVLTDEQKSRIQAMKPMTKEEWDARQSVIRRVVDPETGRTRLIKGDGEVLEEIVSKERHKEINKQATRGDGLAFQVRTGMLK
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May be involved in modulating alternative pre-mRNA splicing. Belongs to the ARL6IP4 family.
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Q502P0
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MGGSDSDSRSRSRNREENKSRSLSSSSARRPSPNHEKKHEHSSEKKKMKRRRSSSSSSSSSSPSPSREKKAKKKKKRREAKKLKREKKKEKKEKKRQKKLALKAERAAALTASVPAPVPEEKPQTYLKTWQSEETKEHGPAMTDEQKAKLSTRRPLTKEEYEARQSVIRRVLDPETGRTRLIRGDGEILEEIVSKERHKDINKQSTRGDGDAFQKRLGISR
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May be involved in modulating alternative pre-mRNA splicing. Belongs to the ARL6IP4 family.
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Q9P2R9
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MAHVGSRKRSRSRSRSRGRGSEKRKKKSRKDTSRNCSASTSQGRKASTAPGAEASPSPCITERSKQKARRRTRSSSSSSSSSSSSSSSSSSSSSSSSSDGRKKRGKYKDKRRKKKKKRKKLKKKGKEKAEAQQVEALPGPSLDQWHRSAGEEEDGPVLTDEQKSRIQAMKPMTKEEWDARQSIIRKVVDPETGRTRLIKGDGEVLEEIVTKERHREINKQATRGDCLAFQMRAGLLP
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Involved in modulating alternative pre-mRNA splicing with either 5' distal site activation or preferential use of 3' proximal site. In case of infection by Herpes simplex virus (HSVI), may act as a splicing inhibitor of HSVI pre-mRNA. Interacts with ARL6 (By similarity). Interacts with ZCCHC17. Interacts with SRSF2. Isoforms 3 and 7 were identified in brain, pancreas, prostate, and testis, but little or no message could be detected in other tissues. Expressed only in G1/S phase. In case of Herpes simplex virus (HSVI)-binding to cells. Partially edited. In the brain, edited at about 68%. Belongs to the ARL6IP4 family. Truncated N-terminus. Truncated N-terminus. Truncated N-terminus. Truncated N-terminus. Truncated N-terminus. Truncated N-terminus. Truncated N-terminus.
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Q9WUG8
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MAHVGSRKRSRSRSRSRSGRRGSEKRSKRSSKDASRNCSASRSQGHKAGSASGVEERSKHKAQRTSRSSSTSSSSSSSSSASSSSSSDGRKKRAKHKEKKRKKKKKKRKKKLKKRVKEKAVAVHQAEALPGPSLDQWHRSAGEDNDGPVLTDEQKSRIQAMKPMTKEEWDARQSVIRKVVDPETGRTRLIKGDGEVLEEIVTKERHREINKQATRGDGLAFQMRTGLLP
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Involved in modulating alternative pre-mRNA splicing with either 5' distal site activation or preferential use of 3' proximal site. Interacts with ZCCHC17 (By similarity). Interacts with SRSF2 (By similarity). Interacts with ARL6. Widely expressed. Expressed at high level in testis and thymus. Belongs to the ARL6IP4 family. Low quality sequence that contains many discrepancies.
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P58542
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MAIAIGLDFGSDSVRALAVDCATGDEIATSVEWYLRWQEGRYCDGPNNQFRHHPRDYMESMEAALKAVLAQLSAAQRANVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEADEITRLCHKPGKVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQAAVSWIELCDWVPALLSGTTRPQDIRRGRCSAGHKTLWHESWGGLPPASFFDELDPCINRHLRYPLFSETFTADLPVGTLCAEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNTLVKVIGTSTCDILIADKQSVGDRAVKGICGQVDGSVVPNFIGLEAGQSAFGDIYAWFSRVLSWPLEQLAAQHPELKTQINASQKQLLPALTDAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPALFGGLVASTAFGARAIQECFTEQGIAVNNVMALGGIARKNQVIMQVCCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPAAQQSMASAVERTLRPRPEQAQRFERLYRRYQQWALSAEQHYLPTAAPAPTTPANQAILTH
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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P06188
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MAIAIGLDFGSDSVRALAVDCATGDEIATSVEWYPRWQEGRYCDGPNNQFRHHPRDYMESMEAALKAVLAQLSAAQRANVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEADEITRLCHKPGKVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQAAVSWIELCDWVPALLSGTTRPQDIRRGRCSAGHKTLWHESWGGLPPASFFDELDPCINRHLRYPLFSETFTADLPVGTLCAEWAQRLDLPESVVISGGAFDCHMGAVGAGAQPNTLVKVIGTSTCDILIADKQSVGDRAVKGICGQVDGSVVPNFIGLEAGQSAFGDIYAWFSRVLSWPLEQLAAQHPELKPQINASQKQLLPALTDAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPALFGGLVASTAFGARAIQECFTDQGIAVNNVMALGGIARKNQVIMQVCCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPAAQQSMASAVERTLRPHPEQAQRFEQLYRRYQQWALSAEQHYLPTAAPAPTTPANQAILTH
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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A8GE05
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MTAGAIALGLDFGSDSVRVLAVDCHNGAELDTEVVYYPRWQRGEFCNAAENRFRHHPLDYIEAMEQAIVTLVQRMPPQQRLQVIGIGVDSTGSTPAPIDEQGQVLALRPEFADNPNAMFVLWKDHTAIEEADAINRLCRSGEFPDYSRYIGGVYSSEWFWAKILHVTRQDAEVRQAAASWVELCDWVPALLSATTAPHQLKRGRCSVGHKTLWHPDWGGLPPKAFFAALDPLLVEHLPWPLFEDCHTADLPVGTLSAEWAARLGLPTTVVLSGGAFDCHMGAVGAGAQPYTLVKVIGTSTCDILIADRQRVDGRAIEGICGQVDGSVVPGMIGMEAGQSAFGDMYAWFSRLLSWPLHAAAKNQPELQPQLQKIEAGLLAALTDAWVENPSLDHLPVVLDWFNGRRTPYANQRLKGVIADLNLGTDAPTLFGGFIAATAFGARAIMECFEQQDIPVDNVLALGGIARKSPAIMQACADVMNRPLQIVASDQCCALGAAIFAAVAAGRFISVPEAQRQMACGIERTLQPDPQRVARYQQLYQRYQQWCQAAEPRYAPTSGSAN
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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B2U269
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MAIAIGLDFGSDSVRALAVDCASGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAEKPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKAQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVPTL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q326H2
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MAIAIGLDFGSDSVRALAVDCASGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKAQINASQKQLLPALTEAWAKNPSLDHLPVVLNWFNGRRTPNANQRLKGVITDLNLATDAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQTQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVPTL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q32K30
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MAIAIGLDFGSDSVRALAVDCTTGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVRIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHALGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVISTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAHHPELKEQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVPTL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q0T8D4
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MAIAIGLDFGSDSVRALAVDCASGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDDSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKAQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDTPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQAQHFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVATL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q7C3B1
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MAIAIGLDFGSDSVRALAVDCASGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKAQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDTPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVATL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q3Z5U8
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MAIAIGLDFGSDSVRALAVECATGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKIVLAELSAEQRAAVVGIGVDTTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKAQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATNAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPRSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVATL
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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A7WYY2
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPVNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEVVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q2FJ88
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAENRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q2G0M6
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAENRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q2YSA9
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPVNIVGIGIDFTSSTIIFTDENINPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVLGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q5HIC3
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAENRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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A6QEK4
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAENRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q99W57
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPVNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEVVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q6GJB6
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIEGELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPVNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNVRSNCGLGFKAFWEEETGFHYDLFDKVDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKDTMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYTNVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q6GBT5
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNIRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q8NXY1
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MSYSIGIDYGTASGRVFLINTTNGQVVSKFVKPYTHGVIESELNGLKIPHTYALQNSNDYLEIMEEGISYIVRESKIDPDNIVGIGIDFTSSTIIFTDENLNPVHNLKQFKNNPHAYVKLWKHHGAYKEAEKLYQTAIENNNKWLGHYGYNVSSEWMIPKIMEVMNRAPEIMEKTAYIMEAGDWIVNKLTNKNIRSNCGLGFKAFWEEETGFHYDLFDKIDPKLSKVIQDKVSAPVVNIGEAVGKLDDKMAQKLGLSKETMVSPFIIDAHASLLGIGSEKDKEMTMVMGTSTCHLMLNEKQHQVPGISGSVKGAIIPELFAYEAGQSAVGDLFEYVAKQAPKSYVDEAANRNMTVFELMNEKIKHQMPGESGLIALDWHNGNRSVLSDSNLTGCIFGLTLQTKHEDIYRAYLEATAFGTKMIMQQYQDWHMEVEKVFACGGIPKKNAVMMDIYANVLNKKLIVMDSEYAPAIGAAILGAVSGGAHNSINDAVDAMKEPILYEINPEAEKVQRYETLFKAYKALHDIHGYKKANIMKDIQSLRVEG
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ATP + D-ribulose = ADP + D-ribulose 5-phosphate + H(+) ATP + L-ribulose = ADP + H(+) + L-ribulose 5-phosphate Carbohydrate degradation; L-arabinose degradation via L-ribulose; D-xylulose 5-phosphate from L-arabinose (bacterial route): step 2/3. Belongs to the ribulokinase family.
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Q8CQG5
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MVQGPIQVNSEIGKLKTVLLKRPGKELENLVPDHLSGLLFDDIPYLKVAQEEHDKFAQTLRDEGIEVVYLEKLAAESITEPEVRENFINDILTESKKTILGHETEIKEFFSKLSDQELVNKIMAGIRKEEIQLETTHLVEYMDDRYPFYLDPMPNLYFTRDPQASIGRGMTINRMYWRARRRESIFMTYILKHHPRFKDKDVPVWLDRNSPFNIEGGDELVLSKDVLAIGISERTSAQAIEKLARNIFKDANTSFKKIVAIEIPNTRTFMHLDTVLTMIDYDKFTVHAAIFKEENNMNIFTIEQNDGKDDIKITRSSKLRETLAEVLEVEKVDFIPTGNGDVIDGAREQWNDGSNTLCIRPGVVVTYDRNYVSNQLLRDKGIKVIEITGSELVRGRGGPRCMSQPLFREDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q8FAD9
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MMEKHYVGSEIGQLRSVMLHRPNLSLKRLTPSNCQELLFDDVLSVERAGEEHDIFANTLRQQGIEVLLLTDLLTQTLDIPEAKSWLLETQISDYRLGPTFATDVRTWLAEMSHRDLARHLSGGLTYSEIPASIKNMVVDTHDINDFIMKPLPNHLFTRDTSCWIYNGVSINPMAKPARQRETNNLRAIYRWHPQFAGGEFIKYFGDENINYDHATLEGGDVLVIGRGAVLIGMSERTTPQGIEFLAQALFKHRQAERVIAVELPKHRSCMHLDTVMTHIDIDTFSVYPEVVRPDVNCWTLTPDGHGGLKRTQESTLLHAIEKALGIDQVRLITTGGDAFEAEREQWNDANNVLTLRPGVVVGYERNIWTNEKYDKAGITVLPIPGDELGRGRGGARCMSCPLHRDGI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family. There are two genes termed arcA in strain O6 of E.coli, one refers to an arginine deiminase and the other to a two-component regulator.
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Q92YG5
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MSSKSSTQHTFGVHSEVGQLRKVMVCAPGRAHQRLTPSNCDALLFDDVLWVDNARRDHFDFMTKMRDRGVEVVEMHNLLAQTVAIPEARKWILDNQVVPNQVGLELLDEIRSYLEGLPDRELAETLIGGLSTHEFPETHGGEMLELIRDAAGVAEYLLPPLPNTLYTRDTTCWIYGGVTLNPLYWPARHEETILATAIYKFHPDFVGKVNVWWGEPTTDWGLATLEGGDVMPIGKGNVLIGMSERTSRQAISQLAATLFEKGAAQRVIVAAMPKLRAAMHLDTVFTFADRDCVLIYPDIVNEIEAFSYRPGEKPGSLELHKDRGSFVETVRDALGLKEMRVVETGGNAYVRERTQWDSGANLVCLSPGVVLAYDRNTYTNTLLRKAGVEVITITGAELGRGRGGGHCMTCPIIRDAVDY
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q8CMW1
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MTNGPIQVNSEIGKLKTVLLKRPGKELENLVPDYLDGLLFDDIPFLKVAQQEHDHFAQVLQDEGIEVLYLEKLAAQSIEDSNVREQFIDDVLAESRKTILGHEKEIKKLFSTLSNQALINKIMAGVRKEEIQLESTHLVEYMDDKYPFYLDPMPNLYFTRDPQASIGRGMTVNRMFWRARRRESIFISYILKHHPRFKDENIPLWVDRDCPFNIEGGDELVLSKDVLAIGISERTSAQAIERLARRIFKDPLSTFKKVVAIEIPTSRTFMHLDTVCTMIDYDKFTTHSAILKSEGNMNIFIIEYDDKAEDIKIQHSSHLKQTLEEVLDVDEITLIPTGNGDIIDGAREQWNDGSNTLCIRPGVVVTYDRNYVSNQLLREHGIKVIEIPGSELVRGRGGPRCMSQPLIREDL
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q5E7U3
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MNKLFVGSEIGQLRRVILHRPERALSHLTPTNCHNLLFDDVLSVEKALLEHDQFVKTLENQDVDVLLLQDLLEQTLENPEAKEWLLKHQISHYRFGPTFANQIRVFLLEHSNKELASILLGGLAFIELPFKAPSMLQQLSDPFDFVIAPLPNHLFTRDTSCWIYGGVSINPMAKAARKRESNHLRAIYRWHPLFSHHDFARYFEDENRYYDNATIEGGDVLVIGKGNVLVGISERTTPQGIENLAKQLFRTHQAKQVIAIKLPEDRSCMHLDTVMTHMDHNVFSVYPRVIDKNMGCWSITPCGEQHLDIKEMPNFQNVLMSALELDNLNIITTGGDSYEAEREQWHDANNVLTIKPGVVVAYERNTYTNEKYDKAGIHVLPITGDELGRGRGGARCMSCPIERDGI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B5F9Q1
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MNKLFVGSEIGQLRRVILHRPERALSHLTPTNCHNLLFDDVLSVEKALLEHDQFVKTLENQGVDVLLLQDLLEQTLENPEAKEWLLKHQISHYRFGPTFANQIRSFLLEHSNKELASILLGGLAFIELPFKAPSMLQQLSDPFDFVIDPLPNHLFTRDTSCWIYGGVSINPMAKAARKRESNHLRAIYRWHPLFSNQDFARYFEDENRYYDNATIEGGDVLVIGKGNVLVGISERTTPQGIENLAKQLFRTHQAKQVIAIKLPEDRSCMHLDTVMTHMDHNVFSVYPRVIDKNMGCWSITPCGEQHLDIKEMPNFQNVLMSALELDNLNIITTGGDSYEAEREQWHDANNVLTIKPGVVVAYERNTYTNEKYDKAGIHVLPITGDELGRGRGGARCMSCPIERDGI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B6EMS7
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MSKLFVGSEIGQLRRVILHRPERALSHLTPTNCHNLLFDDVLSVEKALHEHDQFVATLRQQDVEVLLLQDLLEETLAHPEAKQWLLRHQISHYRFGPTFANQIRAFLLEKNNKELASILLGGLAFIELPFKAPSMLQQLSDPFDFVIDPLPNHLFTRDTSCWIYGGVSINPMAKAARKRESNHLRAIYKWHPLFSNQSFPRYFGDENRHYDNATIEGGDVLIIGKGNVLVGISERTTPQGIENLAKQLFRTEQAKQVIAIKLPENRSCMHLDTVMTHMDHNVFSVYPRVIDKNMPCWSITPCGDQQLAIQEKPNFEHSLMQALELDSLNIITTGGDSYEAEREQWHDANNVLTIKPGVVVAYERNVYTNEKYDKAGITVLPIMGDELGRGRGGARCMSCPIERDGI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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A0R969
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFSSHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGPDEETLKITHSTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B7JN59
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGADEETLKITHRTSLMEALKEVLDLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q73E87
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFEKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGSDEETLKITHRTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B7IV32
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGSDEETLKITHRTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B7H7F6
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGSDEETLKITHRTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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A7GKP8
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MKHPIHVTSEIGELQTVLLKRPGKELENLTPDYLQQLLFDDIPYLPIVQKEHDYFAQTLRNRGVEVLYLETLAAEALTDKKLREEFVNRILKEGQADANVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIDTSQKTHLYELMEDHYPFYLDPMPNLYFTRDPAATIGEGVTINKMREPARRRESLFIEYIMKYHPRFANHNVPVWLNRDYKFPIEGGDELILNEETVAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGLDEETLKITHRTSLMEVLKEVLGLQELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNALLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q81II1
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGSDEETLKITHRTSLMEALKEVLGLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q6HP29
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MKHPIHVTSEIGELQTVLLKRPGKEVENLTPDYLQQLLFDDIPYLPIIQKEHDYFAQTLRNRGVEVLYLEKLAAEALVDKKLREEFVDRILKEGQADVNVAHQTLKEYLLSFSNEELIQKIMGGVRKNEIETSKKTHLYELMEDHYPFYLDPMPNLYFTRDPAASVGDGLTINKMREPARRRESLFMEYIIKYHPRFAKHNVPIWLDRDYKFPIEGGDELILNEETIAIGVSARTSAKAIERLAKNLFSRQNKIKKVLAIEIPKCRAFMHLDTVFTMVDYDKFTIHPAIQGPKGNMNIYILEKGADEETLKITHRTSLMEALKEVLDLSELVLIPCGGGDVIASAREQWNDGSNTLAIAPGVVVTYDRNYVSNTLLREHGIEVIEVLSSELSRGRGGPRCMSMPIVRKDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q65D88
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MIMTTPIHVYSEIGPLKTVMLKRPGRELENLTPEYLERLLFDDIPFLPAVQKEHDQFAETLKQQGAEVLYLEKLTAEALDDALVREQFIDELLTESKADINGAYDRLKEFLLTFDADSMVEQVMSGIRKNELEREKKSHLHELMEDHYPFYLDPMPNLYFTRDPAAAIGSGLTINKMKEPARRRESLFMRYIINHHPRFKGHEIPVWLDRDFKFNIEGGDELVLNEETVAIGVSERTTAQAIERLVRNLFQRQSRIRRVLAVEIPKSRAFMHLDTVFTMVDRDQFTIHPAIQGPEGDMRIFVLERGKTADEIHTTEEHNLPEVLKRTLGLSDVNLIFCGGGDEIASAREQWNDGSNTLAIAPGVVVTYDRNYISNECLREQGIKVIEIPSGELSRGRGGPRCMSMPLYREDVK
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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O51896
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MEEYLNPINIFSEIGRLKKVLLHRPGEELENLTPFIMKNFLFDDIPYLEVARQEHEVFASILKNNLVEIEYIEDLISEVLVSSVALENKFISQFILEAEIKTDFTINLLKDYFSSLTIDNMISKMISGVVTEELKNYTSSLDDLVNGANLFIIDPMPNVLFTRDPFASIGNGVTINKMFTKVRQRETIFAEYIFKYHPVYKENVPIWLNRWEEASLEGGDELVLNKGLLVIGISERTEAKSVEKLAISLFKNKTSFDTILAFQIPKNRSYMHLDTVFTQIDYSVFTSFTSDDMYFSIYVLTYNPSSSKIHIKKEKARIKDVLSFYLGRKIDIIKCAGGDLIHGAREQWNDGANVLAIAPGEIIAYSRNHVTNKLFEENGIKVHRIPSSELSRGRGGPRCMSMPLIREDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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G0IQN3
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MEEYLNPINIFSEIGRLKKVLLHRPGEELENLTPFIMKNFLFDDIPYLEVARQEHEVFASILKNNLVEIEYIEDLVSEVLVSSVALQNKFISQFILEAEIKTDFTINLLKDYFSSLTIDNMISKMISGVVTEELKNYTSSLDDLVNGANLFIIDPMPNVLFTRDPFASIGNGVTINKMFTKVRQRETIFAEYIFKYHPVYKENVPIWLNRWEEASLEGGDELVLNKGLLVIGISERTEAKSVEKLAISLFKNKTSFDTILAFQIPKNRSYMHLDTVFTQIDYSVFTSFTSDDMYFSIYVLTYNPSSSKIHIKKEKARIKDVLSFYLGRKIDIIKCAGGDLIHGAREQWNDGANVLAIAPGEIIAYSRNHVTNKLFEENGIKVHRIPSSELSRGRGGPRCMSMPLIREDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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O51781
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MEEEYLNPINIFSEIGRLKKVLLHRPGEELENLTPLIMKNFLFDDIPYLKVARQEHEVFVNILKDNSVEIEYVEDLVSEVLASSVALKNKFISQFILEAEIKTDGVINILKDYFSNLTVDNMVSKMISGVAREELKDCEFSLDDWVNGSSLFVIDPMPNVLFTRDPFASIGNGITINKMYTKVRRRETIFAEYIFKYHSAYKENVPIWFNRWEETSLEGGDEFVLNKDLLVIGISERTEAGSVEKLAASLFKNKAPFSTILAFKIPKNRAYMHLDTVFTQIDYSVFTSFTSDDMYFSIYVLTYNSNSNKINIKKEKAKLKDVLSFYLGRKIDIIKCAGGDLIHGAREQWNDGANVLAIAPGEVIAYSRNHVTNKLFEENGIKVHRIPSSELSRGRGGPRCMSMSLVREDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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B7J0T5
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MEEEYLNPINIFSEIGRLKKVLLHRPGEELENLTPLIMKNFLFDDIPYLKVARQEHEVFVNILKDNSVEIEYVEDLVSEVLASSVALKNKFISQFILEAEIKTDGVINILKDYFSNLTVDNMVSKMISGVAREELKDCEFSLDDWVNGSSLFVIDPMPNVLFTRDPFASIGNGITINKMYTKVRRRETIFAEYIFKYHSAYKENVPIWFNRWEETSLEGGDEFVLNKDLLVIGISERTEAGSVEKLAASLFKNKAPFSTILAFKIPKNRAYMHLDTVFTQIDYSVFTSFTSDDMYFSIYVLTYNSNSNKINIKKEKAKLKDVLSFYLGRKIDIIKCAGGDLIHGAREQWNDGANVLAIAPGEVIAYSRNHVTNKLFEENGIKVHRIPSSELSRGRGGPRCMSMSLVREDI
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H2O + L-arginine = L-citrulline + NH4(+) Amino-acid degradation; L-arginine degradation via ADI pathway; carbamoyl phosphate from L-arginine: step 1/2. Belongs to the arginine deiminase family.
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Q65D85
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MKKRKIVVALGGNAIQTGDASAEAQKRALEETAMYLADMIDSGAELIITHGNGPQVGNLMIQQKEADSPKTPAMPLETCVSMTQGMIGYWLQNALDRALHAKGKGGHAATVITRVAVRSDDEAFRNPTKPIGPFYSEEEAKELMNSRNGGLVFKEDAGRGWRRVVPSPAPVSILEHDVINDLVEHGHIVIAAGGGGVPVIENGDAVSGIDAVIDKDFAACKLAELVQADELVILTGVDYVAVDYLKPTERALKRVTTEELKGYIKEKQFAEGSMLPKVKAAIQFAEAKKGNKTVITSLKLAKDALQGNAGTIVVQA
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q46171
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MKIVLALGGNALQKDSKDKSAEGQLETCRQTAISVADLIEDGHEVSIVHGNGPQVGQILASIELAHQVDNGNPLFPFDVVGAFSEGYIGYHLQNTIREELLKRGIEKSVDTITTQVIVDKNDPGFKNPTKPIGSFYTKEEAEKLEKDKGYTMKEDAGRGYRRVVASPKPVDIVEKEAIKTMVDSGFIVIACGGGGIPVVEDGDRLEGVPAVIDKDFAAEKLAEILDADALLILTAVDRVCVNFNKPDQKALKEINLEEVDKYIEEGQFAPGSMLPKVEACKKFVLSGDKKVAIIASLTNAKAALRGESGTKIVK
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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Q8XCV5
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MKTLVVALGGNALLQRGEALTAENQYRNIASAVPALARLARSYRLAIVHGNGPQVGLLALQNLAWKEVEPYPLDVLVAESQGMIGYMLAQSLSAQPQMPPVTTVRTRIEVSPDDPAFLQPEKFIGPVYQPEEQEALEAAYGWQMKRDGKYLRRVVASPQPRKILDSEAIELLLKEGHVVICSGGGGVPVTDDGAGSEAVIDKDLAAALLAEQINADGLVILTDADAVYENWGMPQQRAIRHATPDELAPFAKADGSMGPKVTAVSGYVRSRGKPAWIGALSRIEETLAGEAGTCISL
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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Q8FK51
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MKTLVVALGGNALLQRGEALTAENQYRNIASAVPALARLARSYRLAIVHGNGPQVGLLALQNLAWKEVEPYPLDVLVAESQGMIGYMLAQSLSAQPQMPHVTTVLTRIEVSPDDPAFLQPEKFIGPVYQPEEQEALEATYGWQMKRDGKYLRRVVASPQPRKILDSEAIELLLKEGHVVICSGGGGVPVTEDGAGSEAVIDKDLAAALLAEQINADGLVILTDADAVYENWGTPQQRAIRHATPDELAPFAKADGSMGPKVTAVSGYVRSRGKPAWIGALSRIEETLAGEAGTCISL
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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Q2MBQ8
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MKTLVVALGGNALLQRGEALTAENQYRNIASAVPALARLARSYRLAIVHGNGPQVGLLALQNLAWKEVEPYPLDVLVAESQGMIGYMLAQSLSAQPQMPPVTTVLTRIEVSPDDPAFLQPEKFIGPVYQPEEQEALEAAYGWQMKRDGKYLRRVVASPQPRKILDSEAIELLLKEGHVVICSGGGGVPVTDDGAGSEAVIDKDLAAALLAEQINADGLVILTDADAVYENWGTPQQRAIRHATPDELAPFAKADGSMGPNVTAVSGYVRSRGKPAWIGALSRIEETLAGEAGTCISL
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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P44769
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MRIVIALGGNALLRRGEPMTAENQRQNVRIACEQIAKIWPNNELVIAHGNGPQVGLLALQGAAYTDVPTYPLDVLGAETAGMIGYMIQQELGNLVPFEVPFATLLSQVEVDINDPAFKNPTKPIGPVYTKEEAERLAKEKNWSIAQDGDKYRRVVPSPLPKRIFEIRPVKWLLEKGSIVICAGGGGIPTYYDEHHNLQGVEAVIDKDLCSALLAENLDADLFIIATDVSATFVDWGKPNQKAISVASPEAISELGFASGSMGPKVQAAINFAKQTGKDAVIGSLSDIVDIVKGKAGTRITKKTEGISYYA
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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Q9HHM9
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MSYTVVALGGNALLRGGEGSIQDQRDTIEQTVPHFVDLYERGHELVFTHGNGPQVGQLLLQNEEAESAAEKPLDVLGAESQAQIGYLLQQQLREELGETPATVITQTIVDEDDPAFDDPTKRIGPFYDEDEASEKDFPVKEGTDGDGNVGYRRVVPSPKPVDIVEAEHIKTLVETGKPVISSGGGGVPVVEDGDSLTGVAAVIDKDRAAQSLATDIGADEFLVLTDVDAVYRNFGTEDEEELSELTTEEAADMLAAGEFGEGSMAPKVEACIEFVESGGDRAIITKPETATEALDGAAGTTVVPADE
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Carbamate kinase involved in the arginine deiminase pathway of fermentative arginine utilization. ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. 20-fold induction in fermentatively grown cells. Belongs to the carbamate kinase family.
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O53090
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MTKRKIVVALGGNAILSTDASANAQIKAVKETVKQLVAFVKQGDQLIISHGNGPQVGNLLIQQAASDSEKTPAMPLDTVGAMSQGEIGYWMQNAFNEVLAEEGLALDVATIVTQTIVDAKDEAFQNPTKPIGPFYSEAEAKKQQSINPEAHFVEDAGRGWRRVVPSPRPIGIQEAPVIQKLVEGNVITISAGGGGVPVAKEGNKLRGVEAVIDKDFASEKLAELVGADMLIILTAVDNVYVNFNKPDQKKLTNVSVAELEDYIKDDQFAKGSMLPKIQTAIEYVNNRPDSKAIITSLDNVKNLLAHDAGTIITK
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q8G997
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MGRKIVVALGGNAILSKDASAAAQQQALMDTAKHLVKFIENGDQLIISHGNGPQVGNLLLQQSAGSTEENPAMPLDTAVAMTQGSIGYWMQNAMNQVLKEKGLNKTVATVVTQVEVSADDPAFTNPTKPIGPFMSKDEADLAKKENPDFTFVEDAGRGYRRVVPSPKPIGVVETDAVNTLVDAGIVPISVGGGGIPVVADGNQLLGREAVIDKDFASEKLAELVGADALIILTAVPNIYVNFNKPNQKKLEHVSVNDLETYISEKQFAPGSMLPKVQAAIDFVKATGNEAVVTALDNIEGFVNEGSGTVITKKVRQQA
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q8VW54
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MANRKIVVALGGNAILSKDASAEAQQAALRETAKSLVSLVKENEKLIITHGNGPQVGNLLLQQMIGSTKSNPAMPIDTAVSMTEGSIGYWMQNAMDDVLEDEGIDKSAATVVTQVEVDANDSAFQNPSKPIGPFYEKEDINKIRELHPEYIYVEDAGRGYRRVVPSPKPVNVREYQVINSLVDNNVIPISVGGGGVPVVREGNHLIGCEAVIDKDFASEKLAELIKADLLIILTAVDNVYINFNKPDQKKLENVTVEELENYINENQFAKGSMLPKVQAAINFVNNGCGEAVVTSLKNINNFLQKGSGTIITK
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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P13982
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MRIVVALGGNALLRRGEPMTADNQRENVRIAAEQIAKVAPGNELVIAHGNGPQVGLLALQGAAYDKVSPYPLDVLGAETEGMIGYMIEQEMGNLLPFEVPFATILTQVEVDGKDPAFQNPTKPIGPVYSREEAERLAAEKGWSIAPDGDKFRRVVPSPRPKRIFEIRPVKWLLEKGTIVICAGGGGIPTMYDEAGKKLSGVEAVIDKDLCSSLLAQELVADILIIATDVDAAYVDWGKPTQKAIAQAHPDELERLGFAAGSMGPKVQAAIEFARATGKDAVIGSLADIVAITEGKAGTRVSTRKAGIEYR
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Inhibited by ATP. Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Homodimer. Belongs to the carbamate kinase family.
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O31019
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MRVVIALGGNALLRRGEAMTADTQRRNARIAAQAIAPLAADHEIVITHGNGPQVGLLALQGAAYKPEEAYPLDVLGAETEGMIGYMLEQELGNLLPFEQPLATLLTMVEVDADDPGFQNPTKFVGPVYDQAEADRIRTEKGWVFKQDGEKWRRVVASPVPKRIFEIRPVRWLLEQRTIVICAGGGGIPTMYEKGANRKLSLEAVIDKDLCSGLLARELNADLLIMATDAETVCLDWGKPSQKAIHRARPDDLTQFSFPAGSMGPKVDAACHFARSGNRTAAIGSLADIAGLVRGERGTIINGGFAALGWH
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q92ZT0
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MRVVIALGGNALLKRGEPMTAEVQRQNIKIAAEAIAPIAAEHQIVVTHGNGPQVGLLALQGSAYKPEEAYPLDILGAETEGMIGYMLEQELGNVLPFEVPLATILTMVEVDGNDPGFQNPTKFVGPVYDASEAGELHQQKGWVFKQDGNKWRRVVASPIPRRIFELRPIQWLLDKGAVVICAGGGGIPTMYERGKERTLIGVEAVIDKDLCSALLARDIEADLLILATDAEAVFTGWGTPERKAIFKTNPRRLGEFSFPAGSMGPKVEAACHFVNATGRVAAIGALADIPAMVRAERGTIISSSFSDITWHVEVPIPGPASRPV
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q5HKJ3
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MAKIVVALGGNALGKSPQEQLELVKNTAKSLVGLITKGHEIVISHGNGPQVGSINLGLNYAAEHDQGPAFPFAECGAMSQAYIGYQLQESLQNELHSMGIDKQVVTLVTQVEVDEGDPAFNSPSKPIGLFYTKEEANRIQQEKGYQFVEDAGRGYRRVVPSPQPISIIELESIKTLVENDTLVIAAGGGGIPVIREQHDSFKGIDAVIDKDKTSALLGADIHCDQLIILTAIDYVYINYHTDQQQALKTTNIDTLKTYIEEEQFAKGSMLPKIESAISFIENNPNGSVLITSLNQLDAALEGKIGTLITK
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q4L9V7
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MSKIVVALGGNALGQSPEEQLELVKGTAKSLVSLIQKGYEVVISHGNGPQVGSINLGLNYAAENGQGPAFPFPECGAMSQAYIGYQLQESLLNELHVLNIDKQVVTLVTQVEVAGDDQAFNNPTKPIGLFYTKEQAEQTMEEKGYKFVEDSGRGYRRVVPSPMPINIVELDSIETLIKHGTLVIAAGGGGIPVVKEEGNYKGVDAVIDKDKTSALLAAHLKSDQLIILTAVDYVYINYGKDNQEALGEVTVDEMNQHIADGQFAKGSMLPKVEAALQFIEKNPEGSVLITSLEDLGDALDGKIGTLIKK
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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P74733
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MNSPNQNTRPIVIALGGNALLQRGQPPEAEIQKANIHIAALAIAKIARHYPVVVTHGNGPQVGLLALQGECEKSCKPYPLDVLGAETEGMIGYLLEQELRNQLPGRDVVTLLTQIVVDRQDPAFLQPTKPIGPVYTLEQAQQLAQERGWAIAADGQGYRRVVASPEPKRIIELPTIQLLVKSGALVVCAGGGGIPVVVNEAGGLQGVEAVIDKDLAAALLAQNLQAQGLLLLTDVDGVYENWSTNYAHCFEQTTPKNLRRYRFAAGSMGPKVEAACRFVETTGQWCGIGKLDQALDIIDGKAGTVVMP
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q9HII9
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MSRIVIALGGNALLQNGEKRDYETQYEHAYKTFESLRFVTEDNEVVITHGNGPQVGDIQQSHDISGIGAYLHQSVAMSQGYIGEILANAYTNIKTKYNLRKNIFTIITRVLVDENDPAFSNPEKPIGRYYSDAEVEEARKNGWIMKKFRDGWRRVVPSPDPRQILEEPVIEYLLHNGNLPIAVGGGGVPVVRKGEQIHGIDAVIDKDLASSVLATAIRADFLMILTDVDNVYVNYGKPDQKGLHEVHVEEIEKYLKEGQFGEGSMKPKVMAAIRFIKNGGKKAFITSIENSMNALSGRSGTIIVR
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q97C45
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MVRIVIALGGNALLRNGEPRNYEVQYSHAIETFKIIRDITEKNETVITHGNGPQVGDIQQSHEISGIMANLHQSVAMSQGYIGEILANAYDEVRSKYSLSKSIFTIITRSVVNRNDPAFASPEKPIGRYYSDQEVDEAKRNGWVMKKFKDGWRRVVPSPEPIEILEEKAIEELVREGHIPLAVGGGGIPVVKENGRIVGIDAVIDKDIASSLLAAQLKADYFMILTDVESVYVNFGKPDQKPLGRIHLNEIEKYYAEGQFADGSMKPKVRAAINFVKNGGKAAFITNLENGSAALSGKAGTVIVP
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ATP + hydrogencarbonate + NH4(+) = ADP + carbamoyl phosphate + H(+) + H2O Metabolic intermediate metabolism; carbamoyl phosphate degradation; CO(2) and NH(3) from carbamoyl phosphate: step 1/1. Belongs to the carbamate kinase family.
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Q9K574
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MDAENKKGIGLAALVAIIVSGAIGGGVFNLSNDLATNASPGGVVISWIVIGFGILMLVLSLNHLVVNKPELSGVSDYARAGFGNMVGFISGWGYWLSAWAGNIAFAVLMMTSVDYFFPGVFQAKNGSLTILSVIVVSIVSWGLTLLVMRGVEGAAAINAIVLVAKLIPLFVFVIAGIVTFKAGVFSAHFWQNFVANTNADGVIKSLTWSNMTGGDLFSQVKGSLMVMIWVFVGIEGAAMMGDRAKRKSDAGKASIFGLIALLVIYILLSLLPFGFMSQQELANTGQPGLVHILNAMVGGWGGSLMAIGLVISLLGAWLSWTMLPVEATQQLSEQKLLPSWFGKLNDKGAPKNSLLLTQLIVQIFLIVTYFVADAYNVFVYLCTAVIMICYALVGLYLFKLGIQEKKTSNIIIGFIAAAFQILALYYSGWQFVWLSLILYAVGFILYALGKKEYGTKMSTTEVIATFILTVLGILAVFGVYGNWLGLQDALGIDGNTLLVAVVPLIVVTFIVYFVVRSDINKKGIKN
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Catalyzes electroneutral exchange between L-arginine and L-ornithine (PubMed:23144255, PubMed:26324452). Can also efficiently translocate L-histidine and L-lysine (PubMed:26324452). ArcD1 is the main L-arginine/L-ornithine exchanger in the arginine deiminase (ADI) pathway (PubMed:26324452). L-arginine(out) + L-ornithine(in) = L-arginine(in) + L-ornithine(out) Deletion results in loss of the growth advantage observed in the presence of high L-arginine in different growth media. Belongs to the amino acid-polyamine-organocation (APC) superfamily. Basic amino acid/polyamine antiporter (APA) (TC 2.A.3.2) family.
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A2RNI1
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MENKKTKGISLFALLAIIISGAIGGGVFNLANDLARGSTPGGVVISWLFIGFGILMLVLSFNRLITIKPDLSGVSDYARAGFGDFVGFLSGWGYWISAWTGTIGFAVLMMTSADYFFPSKFANSNGSLTILSVIIVSIISWILMLLVDRGVETAAAVNAIVMIAKLIPLVVFSITGIILFKANVFTQHFWQTFTTNFAADGSVKDFVWHAMTVSGLLSQIKGSLMVMVWVFVGIEGATMMGNRAKKKSDTAKATVIGLAVLLVIYVLLSLLPYGYMDQASLANVKAPGLVYILNEMVGGWGGSLMAVGLMISLLGAWLSWTMLPVEATQQLAEQKLLPSWFGKLNKYHAPSNSLLITQLMIQIFIIITYFVANAYNVFIYMATAVIMICYALVGAYLFKIGLKEASVKNILIGFFTFAFQALALYLSGWQYVWLAMILYTIGFLLFIGAKKESHQSISVKEWLGMLVVTVLGVLAIVVLICGAKAGTAFDLRGLLGF
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Catalyzes electroneutral exchange between L-arginine and L-ornithine (PubMed:23144255). Can also efficiently translocate L-alanine (PubMed:26324452). May function in vivo as a L-arginine/L-alanine exchanger in a pathway together with the arcT gene, which is found adjacent to the arcD2 gene in the ADI gene cluster (PubMed:26324452). L-arginine(out) + L-ornithine(in) = L-arginine(in) + L-ornithine(out) Deletion does not affect the growth enhancement observed in the presence of high L-arginine in different growth media, and uptake activities are slightly reduced. Belongs to the amino acid-polyamine-organocation (APC) superfamily. Basic amino acid/polyamine antiporter (APA) (TC 2.A.3.2) family.
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C9IY20
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MPEVSNGRRPSVATFLRQFASTIIPLVNVKQSMPTTQINIVLAEPRCMAGEFFNAKVLLDSSDPDTVVHSFCAEIKGIGRTGWVNIHTDKIFETEKTYIDTQVQLCDSGTCLPVGKHQFPVQIRIPLNCPSSYESQFGSIRYQMKVELRASTDQASCSEVFPLVILTRSFFDDVPLNAMSPIDFKDEVDFTCCTLPFGCVSLNMSLTRTAFRIGESIEAVVTINNRTRKGLKEVALQLIMKTQFEARSRYEHVNEKKLAEQLIEMVPLGAVKSRCRMEFEKCLLRIPDAAPPTQNYNRGAGESSIIAIHYVLKLTALPGIECEIPLIVTSCGYMDPHKQAAFQHHLNRSKAKVSKTEQQQRKTRNIVEENPYFR
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Belongs to the arrestin family.
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O45782
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MVQLDRFEILFNNPEQAYFAGQEISGKVIIENKEPKKVNEILLELKGRARTYWTKHSGKSRKHCSHSEPYFLEQFNPGYTHKFTVVKDGKEKERILPAGIHQVPFSYTLPKSLPSSFEGEFGHIRYTCKAICERPWDFDIVSRKAFTVVGIEDINSDPKLNEPATCVESNHAVTFCCRSAGSVTGEIRISKCGYTPGEKIDVSFKVINLSSKTRTTALRFVQQTTYKAKTFAGHEHIKNVVRVISKIDKGEVPGGSTTEWQEESITIPSLPPKLGKCKILSVTYSVELEVEQTLTVPCPIVIGSIPQLSQLLIHSKQSVQSAGNGSLPKSSIKDSPPKWDSESCVQVTITDESGQLVEELGNEMEALLSARKRVRMPSSILSELYPTMPSPYYKESFFGASDISEEKEQAQFGEASFAPKYPFYTD
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Involved in several behavioral responses including chemotaxis towards lysine and adaptation to repeated osmotic stress. In addition, plays a role in resuming egg-laying and locomotion after starvation. Interacts with tax-6. Expressed from the comma stage to adulthood in the nervous system, including sensory neurons and interneurons posterior to the nerve ring, dorsal and ventral nerve cords, tail ganglia and, CEP, HSN, ASK, ADL, ASH and ASJ neurons. Phosphorylated. Dephosphorylated by tax-6 in vitro. Viable. Shows defects in several behavioral responses, including abnormal avoidance response to the chemoattractant lysine and impaired adaptability induced by prior exposure to high concentration of fructose. Delay in egg-laying upon refeeding after starvation. Slight decrease in brood size. Belongs to the arrestin family.
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Q86H48
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MVSIRPCQIGDLMSMQNANLTCLPENYQMKYYLYHFLTWPQTSFVAEDDKGNVVGYVLAKIDENEPKRGHITSLAVLRSQRKLGIATKLMKQAEVALLEVYDADCVSLHVRKSNRAAFSLYHEVLKFKIDEIEKEYYGDKEDAYSMVLYLKPEVEEEKEREKQLEKINKAAKESIEAAKRANEEPKPVSNVIHGKKKNVKKIE
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Seems to be involved in N-acetylation. Belongs to the acetyltransferase family. ARD1 subfamily.
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Q05885
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MTTYRRMTLCDTLQFNFVNLDQLTETYNTSFYGEYVTHWPEYQRMCVHPTTNIPMAYTLGKAEGQGEDYHGHVSAVSVAPTFRRVALGETLMAELAQMSELVHNAYFVDLFVRKSNQVAQDMYHRLGYIVYRTVLNYYHGDGPKGPFKSDEDALDMRLALRRDKERRKSSVIPLDRPIKPEELEWV
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Seems to be involved in N-acetylation. Belongs to the acetyltransferase family. ARD1 subfamily.
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Q9UTI3
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MDIRPARISDLTGMQNCNLHNLPENYQLKYYLYHAISWPMLSYVATDPKGRVVGYVLAKMEEEPKDGIPHGHITSVSVMRSYRHLGLAKRLMVQSQRAMVEVYGAKYMSLHVRKSNRAAIHLYRDTLQFDVQGIESKYYADGEDAYAMHKDFSTLKFDTPETNDELAKTVQSLALNN
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Catalytic component of the NatA N-terminal acetyltransferase, which catalyzes acetylation of proteins beginning with Met-Ser, Met-Gly and Met-Ala. N-acetylation plays a role in normal eukaryotic translation and processing, protect against proteolytic degradation and protein turnover. acetyl-CoA + N-terminal glycyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetylglycyl-[protein] acetyl-CoA + N-terminal L-alanyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-alanyl-[protein] acetyl-CoA + N-terminal L-seryl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-seryl-[protein] acetyl-CoA + N-terminal L-valyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-valyl-[protein] acetyl-CoA + N-terminal L-cysteinyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-cysteinyl-[protein] acetyl-CoA + N-terminal L-threonyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-threonyl-[protein] Component of the N-terminal acetyltransferase A (NatA) complex, which is composed of at least ard1 and nat1. Belongs to the acetyltransferase family. ARD1 subfamily.
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Q4R0J7
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MATQTLPAQMTALYYEKPRDFSIIKADVPLIDHDEVLLKVSMCGVCGTDQHIHEGEFIAKFPLIPGHEVIGTIVLAGNQVENVKVGDRVVCDVSETCHKCFFCQRGTPLFCESFEAHGVTLNGGFAEYAKFRAAKVFPIKNLTDEQATLVEPASCAVHGLDKIRPKPGSECLLIGAGPTGLMLAQLLKLNGAQRVVLAANKGMKMDIARKINAADEYIDLDRKDAANQWAQLKEDNPHGFDVVVEATGVESIVNDSINYVRRGGTLLVYGVYDNAARVTWSPTKIFQDEINIVGSFAQIHCFPRAVAYLESGKIRTDGMVTHVYKIEEYQEALDKMASRQCLKIAVKPN
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D-arabinitol dehydrogenase which mostly produces D-arabinitol in haustoria, the appendages of the parasitic fungus that penetrate the host's tissue and draws nutrients from it. D-arabinitol accumulation may serve as a carbohydrate storage compound. D-arabinitol is also capable of quenching reactive oxygen species involved in host plant defense reactions, thus providing protection for the rust fungus during the pathogenic interaction. D-arabinitol + NADP(+) = D-xylulose + H(+) + NADPH D-arabinitol + NADP(+) = D-ribulose + H(+) + NADPH Binds 2 Zn(2+) ions per subunit. Optimum pH is 9 for the forward reaction, and 6 for the reverse reaction. Localizes in the lumen of haustoria. Expressed at all stages of early rust development (spores, germlings and infection structures developed on an artificial surface), with highest transcript levels present in haustoria. Belongs to the zinc-containing alcohol dehydrogenase family.
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D3DKV8
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MPINIRRATINDIICMQNANLHNLPENYMMKYYMYHILSWPEASFVATTTTLDCEDSDEQDENDKLELTLDGTNDGRTIKLDPTYLAPGEKLVGYVLVKMNDDPDQQNEPPNGHITSLSVMRTYRRMGIAENLMRQALFALREVHQAEYVSLHVRQSNRAALHLYRDTLAFEVLSIEKSYYQDGEDAYAMKKVLKLEELQISNFTHRRLKENEEKLEDDLESDLLEDIIKQGVNDIIV
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Catalytic component of the NatA N-terminal acetyltransferase, which catalyzes acetylation of proteins beginning with Met-Ser, Met-Gly and Met-Ala. N-acetylation plays a role in normal eukaryotic translation and processing, protect against proteolytic degradation and protein turnover. acetyl-CoA + N-terminal glycyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetylglycyl-[protein] acetyl-CoA + N-terminal L-alanyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-alanyl-[protein] acetyl-CoA + N-terminal L-seryl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-seryl-[protein] acetyl-CoA + N-terminal L-valyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-valyl-[protein] acetyl-CoA + N-terminal L-cysteinyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-cysteinyl-[protein] acetyl-CoA + N-terminal L-threonyl-[protein] = CoA + H(+) + N-terminal N(alpha)-acetyl-L-threonyl-[protein] Component of the N-terminal acetyltransferase A (NatA) complex, which is composed of ARD1, NAT1 and NAT5. Can self-associate. Present with 3310 molecules/cell in log phase SD medium. Belongs to the acetyltransferase family. ARD1 subfamily.
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P43066
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MDSAYWSYDNIVPSFRLDGKLVILTGGSGGLAAVVSRALLAKGADVALVDMNLERTQQAARDVLQWGEEQMKGKYESPIGQVSAWSCNIGDAEAVDLTFKAINEHHGKISSVLVNTAGYAENFPAEEYPAKNAENLMKVNGLGSFYVSQAFARPLIQNNMTGSIILIGSMSGTIVNDPQPQCMYNMSKAGVIHLARSLACEWAKYNIRVNTLSPGYILTPLTRNVISGHTEMKTEWESKIPMKRMAEPKEFVGSILYLASESASSYTTGHNLVVDGGYECW
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D-arabinitol + NAD(+) = D-ribulose + H(+) + NADH Carbohydrate metabolism; D-arabinitol metabolism. Belongs to the short-chain dehydrogenases/reductases (SDR) family.
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P50166
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MDSSSYWSYDNIVPSFRLDGKLVIITGGSGGLSAVVSRALLAKGADIALIDMNLERTQQAARDVLQWGEEQMKGKHESPIGQVSAWSCNIGDAEAVELTFKAINEHHGKVASVLINTAGYAENFPAEEYPAKNAENIMKVNGLGSFYVSQAFARPLIQNNMTGSIILIGSMSGTIVNDPQPQCMYNMSKAGVIHLARSLACEWAKYNIRVNTLSPGYILTPLTRNVISGHTEMKTEWESKIPMKRMAEPKEFVGSILYLASDSASSYTTGHNLVVDGGYECW
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Catalyzes the NAD(+)-dependent oxidation of D-arabinitol at carbon 4 to produce D-ribulose. D-arabinitol + NAD(+) = D-ribulose + H(+) + NADH Carbohydrate metabolism; D-arabinitol metabolism. Belongs to the short-chain dehydrogenases/reductases (SDR) family.
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A3LUR3
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MDYSYANVVPNFRLDGRLAIITGGSGGLAAVISRALLAQGADVALIDMNLERTKSAAKEVLGWGEETLKGEHASAIGQVSAWSCNIGDAEAVDATFSSINEHHGKIADLLINTAGYCENFPAETYPATNAESIMKVNGLGSFYVSQSFARPLIQNNLRGSIILIGSMSGTIVNDPQPQCMYNMSKAGVIHLVRSLACEWAKYNIRVNTLSPGYILTPLTRNVISGHTEMKEAWESKIPMKRMAEPKEFVGSILYLASETASSYTTGHNLVVDGGYECW
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D-arabinitol + NAD(+) = D-ribulose + H(+) + NADH Carbohydrate metabolism; D-arabinitol metabolism. Belongs to the short-chain dehydrogenases/reductases (SDR) family.
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Q876L3
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MTEAKELLQDERFLKIQELNSAEPSKRHSVTYDNVILPQESVEVSPRSSTTSLEEPATTTATGVAVAAAAAAAEKKKKKKGEDGDDEQDEQAEEKYPVDPRMQKYLSHLKSKSRTRVHRKDASKYVSFFGDVSFDPRPTLLDSAVNVPFQTTFKGPVLEKQLKGLQQTKKGEVAAAAATAATAATAAAAPPGKKLESNFSGIYVFAWMFMGWIAFRSCMDYYVSHEGGFASMEIVQYMTSDLFTIALLDLALFLSTFFVVFVHWLVKLGFIRWKWTGFVAVSLFELCFIPVSFPVYVYYFHFSWVTRIFLFLHSVVLLMKAHSFAFYNGYLWDIKNELEFSSNKLNKFKESLSPETKDILQKSCDFCLFELNYQTKDNDFPNNISCSNYFMFCMFPVLVYQINYPRTSHIRWRYVLEKFCAIMGTIFLMMVTAQIFMHPVAMRCIEYHDTPSFGGWVPAVKQWLFLLFEMIPGFSVLYMLTFYMIWDALLNCVAELTRFADRYFYGDWWNCVSFEEFSRIWNVPVHKFLLRHVYHSSMGALHFSKAQATLFTFLLSAVFHEIAMFAIFKEVRGYLFLFQLSQFAWTALSNTKFLRSRPQLSNVVFTFGVCTGPSMIMTLYLTL
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Sterol O-acyltransferase that catalyzes the formation of stery esters. Belongs to the membrane-bound acyltransferase family. Sterol o-acyltransferase subfamily.
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D6VR57
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MTETKDLLQDEEFLKIRRLNSAEANKRHSVTYDNVILPQESMEVSPRSSTTSLVEPVESTEGVESTEAERVAGKQEQEEEYPVDAHMQKYLSHLKSKSRSRFHRKDASKYVSFFGDVSFDPRPTLLDSAINVPFQTTFKGPVLEKQLKNLQLTKTKTKATVKTTVKTTEKTDKADAPPGEKLESNFSGIYVFAWMFLGWIAIRCCTDYYASYGSAWNKLEIVQYMTTDLFTIAMLDLAMFLCTFFVVFVHWLVKKRIINWKWTGFVAVSIFELAFIPVTFPIYVYYFDFNWVTRIFLFLHSVVFVMKSHSFAFYNGYLWDIKQELEYSSKQLQKYKESLSPETREILQKSCDFCLFELNYQTKDNDFPNNISCSNFFMFCLFPVLVYQINYPRTSRIRWRYVLEKVCAIIGTIFLMMVTAQFFMHPVAMRCIQFHNTPTFGGWIPATQEWFHLLFDMIPGFTVLYMLTFYMIWDALLNCVAELTRFADRYFYGDWWNCVSFEEFSRIWNVPVHKFLLRHVYHSSMGALHLSKSQATLFTFFLSAVFHEMAMFAIFRRVRGYLFMFQLSQFVWTALSNTKFLRARPQLSNVVFSFGVCSGPSIIMTLYLTL
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Sterol O-acyltransferase that catalyzes the formation of stery esters. an acyl-CoA + lanosterol = CoA + lanosteryl ester Belongs to the membrane-bound acyltransferase family. Sterol o-acyltransferase subfamily.
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P84285
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MGRTNTSDQLNAISDKNTKRKSLALDNEYHNNSSSEDDSSKIELSYTIPDNNNIISQETTTSVEDVLSLSSAPQNELRLRKQKSNNQDSPVDLNGVIVDVSKREKIFLKRKRQIDNKHGSDKSKYLSRFNDITFKAKSSTIFESDEFYKTDFFGMYVLFWLATAFAMVNNLIHTYFENSTPILQWTVVKVFKRDLFKVGLVDLAMYLSTYFAFFVQYACKNGYLSWKKVGWWLQAAFDGLFLFFWLWIASEYCLDFPWIAKVFLVLHSLVFIMKMHSYAFYNGYLWSIYKEGLYSEKYLDKLTNGKVTLPKGHTKNETEKVLQESIAFTKYELEYQSHATTENPDDHHVFDIDQTDKSIAKLQQEGLIKFPQNITLFNYFEYSMFPTLVYTLNFPRTKRIRWSYVFGKTFGIFGLIFLMILIAENNLYPIVLRCEIARKLPVSERIPQYFFLLMDMIPPFLMVYLFTFFLIWDAILNAIAELSKFADRDFYGPWWSCTDFSEFANQWNRCVHKFLLRHVYHSSISAFDVNKQSAAIITFLLSSLVHELVMYVIFGTLRGYLLLFQMSQIPLIIMSRSKFMKDKKVLGNIICWFGFISGPSIICTLYLVF
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Sterol O-acyltransferase that catalyzes the formation of stery esters. Inhibited by the protoberberine derivative HWY-289 in a non-competitive manner. Inhibited by miconazole. Not inhibited by CI-976, polyoxin D, amphotericin B or nikkomycin Z. Transcription is induced by HWY-289, but not by CI-976. HWY-289 may deplete protein levels causing an increase in transcription. Belongs to the membrane-bound acyltransferase family. Sterol o-acyltransferase subfamily.
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Q876L2
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MDKNKDLLENEQFLRIQKLNASDAGKRQSILVDNEDELYGLTSSNNSCASEHEGEGEGEDERPATTSSAPTQNHSAGDVAFIPGKTAEEDTETVTKVVESDDQVFRTHVQTLSSKGKSRYRKGSSNFISFFDDMAFENRPSILDGSVNDPFKTKFVGPTLEKEIRKREKELMAMRKNLHHGKPAPDADAADAPALTTTTTTTTSATSPETVVTIETTILSSNFSGLYVAFWMAIAFGAVKALIDYYYQHNGSFKDSEILKFMTTNLSTVALIDLIMYLSTFFVVGIQYLCKWGVLNWSSTGWAFTSIYELLFVGFYMYLTENILKLHWLSKIFLFLHSLVLLMKMHSFAFYNGYLWGIKQELQFSKSALAKYKDSVNDPDVVDALEKSCEFCSFELNSQSLNDQTQKFPNNINVSNFFMFTMFPTLIYQIEYPRTKEIRWVYVLEKICAIFGTIFLMMIDAQILMHPVAMRALDVRNSEWTGILDRLLKWAGLLVDIVPGFIVMYILDFYLIWDAILNCVAELTRFGDRYFYGDWWNCVSWADFSRIWNIPVHKFLLRHVYHSSMSSFKLNKSQATLMTFFLSSVVHELAMYVIFKRLRFYLFFFQMLQVPLVALTNTKYMKDRTVIGNVIFWLGICMGPSVMCTLYLTF
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Sterol O-acyltransferase that catalyzes the formation of stery esters. Belongs to the membrane-bound acyltransferase family. Sterol o-acyltransferase subfamily.
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Q12673
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MDKKKDLLENEQFLRIQKLNAADAGKRQSITVDDEGELYGLDTSGNSPANEHTATTITQNHSVVASNGDVAFIPGTATEGNTEIVTEEVIETDDNMFKTHVKTLSSKEKARYRQGSSNFISYFDDMSFEHRPSILDGSVNEPFKTKFVGPTLEKEIRRREKELMAMRKNLHHRKSSPDAVDSVGKNDGAAPTTVPTAATSETVVTVETTIISSNFSGLYVAFWMAIAFGAVKALIDYYYQHNGSFKDSEILKFMTTNLFTVASVDLLMYLSTYFVVGIQYLCKWGVLKWGTTGWIFTSIYEFLFVIFYMYLTENILKLHWLSKIFLFLHSLVLLMKMHSFAFYNGYLWGIKEELQFSKSALAKYKDSINDPKVIGALEKSCEFCSFELSSQSLSDQTQKFPNNISAKSFFWFTMFPTLIYQIEYPRTKEIRWSYVLEKICAIFGTIFLMMIDAQILMYPVAMRALAVRNSEWTGILDRLLKWVGLLVDIVPGFIVMYILDFYLIWDAILNCVAELTRFGDRYFYGDWWNCVSWADFSRIWNIPVHKFLLRHVYHSSMSSFKLNKSQATLMTFFLSSVVHELAMYVIFKKLRFYLFFFQMLQMPLVALTNTKFMRNRTIIGNVIFWLGICMGPSVMCTLYLTF
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Sterol O-acyltransferase that catalyzes the formation of stery esters. an acyl-CoA + ergosterol = CoA + ergosteryl ester an acyl-CoA + zymosterol = CoA + zymosterol ester Present with 279 molecules/cell in log phase SD medium. Belongs to the membrane-bound acyltransferase family. Sterol o-acyltransferase subfamily.
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O13412
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MSGLTLGGGGSGGVRPTQPAAFASLQDSADADRRSSTTTSNNPPPLPSDFSQLSDDFSFGSPISPPHSSNAPDSLLHDSLFPEWKVGTPRAGFDGPDEMQRKDPLATQIWKLYSRTKAQLPNQERMENLTWRMMAMSLKRKERERAQQSRSASARNSVSGPSGIAQLTSPPLIASRPTRQNPSLSTDLTSDPMNLERIFIVPFESPSDHPSPQLTKGEATSAAIPIKSRKDQVAESTPVPASFPHPPQDQRKNSEFGYVPRRVRKTSIDDRQFFNLQVPTRKRPAEASPQVPPVSNAMLAQDPDLSGGVPDYALDASSAFALHHNNHSSSHHNHTSPGMPFGLDTYGLGEDPILTSAGPYQTQFTFSPTESPMTSGNPFANLYAHTPVASSLNSTDFFSPPQSGYQSTASTPQPAYDGEHSMFFDMPSVDARTQRRVPNYVSHRTSNLSASLQPRYMFNQNQDQSHHTGNHSSSMHSPGYPIPQPQHVDPTQVLNPNDFSTGASHAAMFSFGADSDNEDDDGNQFSDRAGLTMPGDLDDGADMNGGMQWDAQFPGSFHSLPGFTAQHRKHVTIGPTDMMDTPSEWAQSGSLGRTHGSAASVSEVRNREQDPRRQKIARTTSTPNTAQLLRQSMNANTSHTSPNTPPESGLSSAVPSRPASPGGSKNGEQSSGPTTCTNCFTQTTPLWRRNPEGQPLCNACGLFLKLHGVVRPLSLKTDVIKKRNRSSANSLAVGTSRASKKSARKNSVQQTTVTTPTSSRAQSGATSFGVRRPRAGAVRRAEPLVPIAAAPPKANPTTSSPGQSRGTSSVQMAPKRQRRLEKATDAEAGGDEASKSSTASGGRSKVVALAPAMPPAAANPANHSIAGGQGASQEWEWLTMSL
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Major nitrogen regulatory protein. Positively acting regulatory gene of nitrogen metabolite repression.
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Q2UU16
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MSGLTLGRGPGGVRPTQTATFTTHHPSADADRSSNNLPPTSSQLSDDFSFGSPLSPADSQAHDGLLQDSLFPEWGSGAPRPGIDSPDEMQRQDPLATQIWKLYSRTKAQLPNQERMENLTWRMMAMSLKRKERERAQQSMFPARRGSAGPSGIAQLRISDPPVATGNPQSTDLTADPMNLDDFIVPFESPSDHPSPSAVKISDSTASAAIPIKSRKDQLRDSTPVPASFHHPAQDQRKNSEFGYVPRRVRKTSIDERQFFSLQVPTRKRPAESSPQVPPVSNSMLAHDPDLASGVPDYALDAPSSAFGFHQGNHHPVNHHNHTSPGAPFGLDTFGLGDDPILPSAGPYQSQFTFSPSESPMASGHPFANLYSHTPVASSLNSTDFFSPPPSGYQSTASTPQPTYDGDHSVYFDMPSGDARTQRRIPNYISHRSNLSASLQPRYMFNQNNHEQASSSTVHSPSYPIPQPQHVDPTQVLNATNYSTGNSHHTGAMFSFGADSDNEDDDGHQLSERAGLAMPTEYGDEDGFSSGMQWDGQFPGSFHSLPGFGPQHRKHVTIGSTDMMDTPEEWNHGGSLGRTHGSVASVSEVRNREQDPRRQKIARTTSTPNTAQLLRQSMHSNNNTSHTSPNTPPESALSSAVPSRPASPGGSKNGDQGSNGPTTCTNCFTQTTPLWRRNPEGQPLCNACGLFLKLHGVVRPLSLKTDVIKKRNRSSANSLAVGTSRASKKTARKNSVQQASVTTPTSSRAQNGTSFESPPAGFSAAAGRSNGVVPIAAAPPKAAPSAAASPSTGQTRNPIQAAPKRQRRLEKATEMETDEANKSAGGRSKVVPLAPAMPPAAANPANHSIAGGQGASQEWEWLTMSL
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Major nitrogen regulatory protein. Positively acting regulatory gene of nitrogen metabolite repression.
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Q5ASR3
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MSGLTLGGGSGRVRPTQAAAAFPTSHDFADPDRSSVARNANRPSRRFAAPPQLSDDFSLESPTDSAQVHDNLLQDALFPEWKANSPRGVDSPDEMQKKDPLATQIWKLYSRTKAQLPNQERMENLTWRMMALSLRRQERERAQQQARASSQKSPVPGMSGIAQLRLSDRVSNTPTTTADTVSDAMNLDDFIIPFSPSDHPSPSTTKASEATTGAIPIKARRDQSASEATPVPASFPHPAQDQRRESEFGYVPRRVRKTSIDERQFFNLQIPSRKRPAESSPHVPPVSTSMLAHDPDFSHAVPEYTLDTSHGLSLQNQMNAQQLANAQNHTSPNMAFALDTFNLGDDPILPSAGPYQQQFTFSPSESPMTSGNPFANLYAQTPIASSLNSTDFFSPPPSGYQSTASTPQPAYDGEHSKYFDMPVDARSQRRVVPAYITQRSSNLSASLQPRYMYNQGGSSQDITQQNAHMGAQSSSMQSPGFSIPQHVDPTQVLNPNEFNGNHAAMFSFGADSDVEDDDGNQFSAGGLAMPAEFGDDSISDMNSNMAWETSYPNSFQSLPAFAAQHRKHVTIGSADMMDTPSEWNQGGSLGRTHESAASVSEVRNRDQDPRRQKIARTSSTPNTAQLLRQSMQNQSSHTSPNTPPESGLNSAAPSRPASPGGTKNGEQNGPTTCTNCFTQTTPLWRRNPEGQPLCNACGLFLKLHGVVRPLSLKTDVIKKRNRNSANSLAVGSSRVSKKSARKNSVQQVTPTAPTSSRAQSNTTSESPPAMPGSSGRGSGVVPIAAAPPKSSSAATTSPGTNNGCGAVQVAPKRQRRLEKASDVDMAESPSSTSSGGRSKVVPLAPAMPPAAVNPANHSIAAGQGASQEWEWLTMSL
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Transcription activator that binds the consensus DNA element 5'-CGATAG-3' and mediates nitrogen metabolite repression. Activates the transcription of uapA. Interacts with nmrA. Down-regulated in nitrogen-sufficient conditions and up-regulated in nitrogen-limiting conditions.
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P78688
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MSTSVSIATSSPVLTMNPIITEHDFRFPRRPSAWPGAAIHNAPTQRTXNSNRIPNSRDASASFKEHKTDMATTYSLARQGLGGSALFPFLQNGLADSDRSIDRMQQDDPLATQVWKFFARTKHQLPSQHRMENLTWRMMALNIRRHKEEQQQRQDEADARRKKNMDAGSRAFRLGRPMMQSSPSGIAQLRKSSENNLAQPDAMNLDDFIFSDNSGSPINFASPEGDKMVDDRSGSSMASAIPIKSRKEPSLQNFVPQSVPVQPAHQATQGSEFNYVNRHLRKTSIDDRRTRKRPANFSPQVPAVNSTAAQNDLDLDSELHDYSLDQPNQAGIPQQSNGSNVPFNIDTFMENDSMVNNGNFQQNFSFSPSTSPMIPHGPFSGMYHNSSVPSASMSNNNNNSDFYSPPASAYPSNVSTPHPVPEQEGFYFGSQDARTQRPQGFQQSIGSMLSQQFMYGGSNGNSGSTMFSAPGTASESMSAYSTAPSSFGHIDPSQVFQNEQAVTSPTIQMPQDNMFSFGADSDDEDNNAFADRNVSMQKDMSSSLDESGAMGWDASLPGQFSTQAARFPGGPTRKQVMIGGTTTDFVDNNGDWESNGLERSQSQSFRGGNLRRQHPKLPRNASTPVHFGGQQNGFEQLAQSMQSSPAGDGNGTMSGFSSVAPSRPSSPPMSKQGSTTNLQAAAGNGNDGNAPTTCTNCFTQTTPLWRRNPEGQPLCNACGLFLKLHGVVRPLSLKTDVIKKRNRGSGTNVPVGGSSTRSKKTASTLNSRKNSTLSMSTATANSTKPNSSNPTPRVTTPPATSQPPSSKDVDSPVSGTTSGANTAGSTPNSHFGGPGPSSGAVGGKGVVPIAAAPPKTSPGPGASSMSMQRPATASSKRQRRHSKSIGGDVPVSMDIDSPDSTSSIDGPRPFGSSAGLSSLPGGMSASSFNLNQRPSTLGSATGMISMSGGQTSSLIGSSAGPQEWEWLTMSL
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Major nitrogen regulatory protein. Positively acting regulatory gene of nitrogen metabolite repression (By similarity).
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Q01582
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MRLSDQVSPAGPDPSHDMNLDATSDPMNLDDFIVPFDSPAEHSAHPSVDRNFAATPTGSIPIKSRKDHAMTDSSTAASFPHPPQDQRTNSEFGYVPRRVRKTSVDERQFFAGLSVPTRKRPAEASPQVPPVSNAMMAHSSELSAALPDYSLDHHLLLLLFLAMAQWAPPTSSPSHAFQHSLRLDTYGINEDHGLNSAGPYQQNFHFSPSDSPMTAGNPFSSLYAQTPLASSLNSTEFFSPPPSGYQSTVSTPQPIYEGEQSIFFSDAPSAESHTQRRIPNYIQQRQSNLSASLQPRYMYNMSNGESHPGSAVTGPPTTNMSGFSVPQHVNPSQVLGHGEFSTTAPASSMFTFGGDSDNEDDDGNFGERGGITMPNDFASLDESVDMSAGLHWDGGFPGSVQSLPGFSAQTRKHVTIGSTDMIDGPLEWNQGGTLGRAHGSAASVSEVRNQNQDPRRYGKVPRTASTPNAAALLRQSLNGSASGLPTNHPSPSTLPESGLSSRCLPARQPGGLKNGSTNAGPEPACTNCFTQTTPLWRRNPEGQPLCNACGLFLKLHGVVRPLSLKTDVIKKRNRSSANTLTVGTSRSSKKSSRKNSIQHAPSTSISSRMNTSESPPSINGSSTLGKPGVVPIAAAPPKSGPPAGVAQARAGVQVAPRRQRRLEKAPAGSEPDADDSPKSAAPPSRSKVVPLAPAMAPPAAANPANHSIAGGQGASQEWEWLTMSL
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Major nitrogen regulatory protein.
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Q9LQE8
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MESGNVVNTQPELSGIIDGSKSYMYEQLWKLCAGPLCDIPKLGEKVYYFPQGHIELVEASTREELNELQPICDFPSKLQCRVIAIQLKVENNSDETYAEITLMPDTTQVVIPTQNQNQFRPLVNSFTKVLTASDTSVHGGFSVPKKHAIECLPPLDMSQPLPTQEILAIDLHGNQWRFRHIYRGTAQRHLLTIGWNAFTTSKKLVEGDVIVFVRGETGELRVGIRRAGHQQGNIPSSIVSIESMRHGIIASAKHAFDNQCMFIVVYKPRSSQFIVSYDKFLDVVNNKFNVGSRFTMRFEGDDFSERRSFGTIIGVSDFSPHWKCSEWRSLEVQWDEFASFPRPNQVSPWDIEHLTPWSNVSRSSFLKNKRSREVNEIGSSSSHLLPPTLTQGQEIGQQSMATPMNISLRYRDITEDAMTPSRLLMSYPVQPMAKLNYNNVVTPIEENITTNAVASFRLFGVSLATPSVIKDPVEQIGLEISRLTQEKKFGQSQILRSPTEIQSKQFSSTRTCTKVQMQGVTIGRAVDLSVLNGYDQLILELEKLFDLKGQLQARNQWEIAFTNNEEDKMLVGEDPWPEFCNMVKKIFIYSKEEVKNLKSRKSLSS
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Auxin response factors (ARFs) are transcriptional factors that bind specifically to the DNA sequence 5'-TGTCTC-3' found in the auxin-responsive promoter elements (AuxREs). Could act as transcriptional activator or repressor. Formation of heterodimers with Aux/IAA proteins may alter their ability to modulate early auxin response genes expression. Homodimers and heterodimers. Interactions between auxin response factors (ARFs) and Aux/IAA proteins occur through their C-terminal dimerization domains III and IV. Belongs to the ARF family.
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Q68Y40
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MGIDLNTVEEEAEEGAAAAVCGELWHACAGPGVALPRRGSALVYLPQAHLAADGGGGEVPPAGAAAVPPHVACRVVGVELRADAATDEVYARLALVAEGEMLQRNFREGGGEDGAGEMEGCDAEKKPRMPHMFCKTLTASDTSTHGGFSVPRRAAEDCFPPLDYKTVRPSQELIAVDLHGTQWKFRHIYRGQPRRHLLTIGWSSFVNRKKLVSGDAVLFLRGDDGQLRLGVRRAVQLRNEALFEPVNSSDSKLRILSSVASSLENKSVFHICFNPRSGASEFIVPYWRLLKSLNHPFSIGMRFRVCYESEDANERSAGLISGISEVDPIRWPGSRWKCLLVRWDDSTDSSHQNRVSPWEIERVGGSVSVTHSLSSGSKRTKLHFPQGSLDTPFLNGNGHPDSMGTENFHRVLQGQEFRGSRSHGVVCSESPGVPNFQSPDNRRFSADMRGYMMPASGPPQRNTEFTYQPIGFSESLGFPEVLQGQEMSQVVPLFRGATFGARTQNDRVVSANSVHRSAAQSGLLASTLGHPISQFTLSSSKVSSPSSVLMFNQATAPNHETVSGTNNKGMHVSQFASQEMLSETVTWPGTQRQTPSEITSNQFALARIPAPPSGAESGLPKRDAGRSSCRLFGFSLTGNMLGEDGEGLDDGAIEAGCENPPVLELFGHSHSTPGALHALCAAAPLGM
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Auxin response factors (ARFs) are transcriptional factors that bind specifically to the DNA sequence 5'-TGTCTC-3' found in the auxin-responsive promoter elements (AuxREs). Homo and heterodimers. Expressed in roots, culms, leaves and young panicles. Down-regulated by auxin under light condition. Belongs to the ARF family.
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F4HYE3
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METGNVVNAQPELSGIIDRSKSYMYEQLWKLCAGPLCDIPKLGEKVYYFPQGNIELVEASTREELNELQPICDLPSKLQCRVIAIHLKVENNSDETYAKITLMPDTTQVVIPTQNENQFRPLVNSFTKVLTASDISANGVFSVPKKHAIECLPPLDMSQPLPAQELLAIDLHGNQWSFRHSYRGTPQRHLLTTGWNEFTTSKKLVKGDVIVFVRGETGELRVGIRRARHQQGNIPSSIVSIDCMRHGVIASAKHAFDNQCMFIVVYKPRSSQFIVSYDKFLDAVNNKFNVGSRFTMRFEGDDLSERRYFGTIIGVSNFSPHWKCSDWRSLEVQWDEFASFLRPNKVSPWEIEHLMPALNVPRSSFLKNKRLREVNEFGSSSSHLLPPILTQGQEIGQLSVASPMNISLLYRETTEDAMNPSRLLMSYPVQPMPKRNYNNQMVTQIEENITTKAGTNFRLFGVSLATPPVIKDPIEQIGSDISKLTEGKKFGQSQTLRSPTKIQSKQFSSTRTCTKVQMQGVTIGRAVDLSVLNGYDQLILELEKLFDLKGQLQTRNQWKIIFTGSDEDEMLVGDDPWPEFCNMVKRIYIQKRR
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Auxin response factors (ARFs) are transcriptional factors that bind specifically to the DNA sequence 5'-TGTCTC-3' found in the auxin-responsive promoter elements (AuxREs). Could act as transcriptional activator or repressor. Formation of heterodimers with Aux/IAA proteins may alter their ability to modulate early auxin response genes expression. Homodimers and heterodimers. Interactions between auxin response factors (ARFs) and Aux/IAA proteins occur through their C-terminal dimerization domains III and IV. Belongs to the ARF family.
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Q6AUG6
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MTGIDLNTVEEDEEEAAEEVAANGSSPAPARAGAVCLELWHACAGPVAPLPRKGGVVVYLPQGHLEHLGDAPAAAAAAAAVPPHVFCRVVDVTLLADAATDEVYAQLSLVPEKEEVARRADDGEGEDGDGMKQRFARMPHMFCKTLTASDTSTHGGFSVPRRAAEDCFPPLDYSQQRPSQELVAKDLHSTEWRFRHIYRGQPRRHLLTTGWSAFVNKKKLVSGDAVLFLRGDDGELRLGVRRAAQLKNGSAFPALYNQCSNLGTLANVAHAVATESVFNIYYNPRLSQSEFIVPYWKFMKSLSQPFSVGLRFKMRYESEDATERRYTGIITGSGDTDPMWHGSKWKCLLVRWDDDAEFRRPNRVSPWEIELTSSVSGSHLSTPHSKRLKPCLPHVNPEYMVPRGGGCPDFAESAQFHKVLQGQELLGFKSHGGTAAATSQPCEARHLQYIDERSCSSDASNSILGVPRLGDRAPLGNPGFSYHCSGFGESHRLQKVLQGQELFRPYRGTLVDASMGSNGFHQQDSPRAPGVVNKWQAQLHGRAAFHGPPALALPSQSSSPPSVLMFQQANSKMPRLEFGHGQLDKHENDRRVRFGPSEGIERREQRIPLQPYPTSGEVIDGQVTVEKSHSPGRHGKDGPDNKAVGTNSCKIFGISLTEKVPAREELDDGDANYSLQSLKQVPKSLGNSCATVHEQRPVVGRVIDISTMDMMI
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Auxin response factors (ARFs) are transcriptional factors that bind specifically to the DNA sequence 5'-TGTCTC-3' found in the auxin-responsive promoter elements (AuxREs). Homo and heterodimers. Expressed in roots, culms, leaves and young panicles. Belongs to the ARF family.
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Q9Y2X6
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MAQESPKNSAAEIPVTSNGEVDDSREHSFNRDLKHSLPSGLGLSETQITSHGFDNTKEGVIEAGAFQGSPAPPLPSVMSPSRVAASRLAQQGSDLIVPAGGQRTQTKSGPVILADEIKNPAMEKLELVRKWSLNTYKCTRQIISEKLGRGSRTVDLELEAQIDILRDNKKKYENILKLAQTLSTQLFQMVHTQRQLGDAFADLSLKSLELHEEFGYNADTQKLLAKNGETLLGAINFFIASVNTLVNKTIEDTLMTVKQYESARIEYDAYRTDLEELNLGPRDANTLPKIEQSQHLFQAHKEKYDKMRNDVSVKLKFLEENKVKVLHNQLVLFHNAIAAYFAGNQKQLEQTLKQFHIKLKTPGVDAPSWLEEQ
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Plays a role in controlling biogenesis of secretory granules at the trans-Golgi network (PubMed:22981988). Mechanisitically, binds ARF-GTP at the neck of a growing secretory granule precursor and forms a protective scaffold (PubMed:9038142, PubMed:22981988). Once the granule precursor has been completely loaded, active PRKD1 phosphorylates ARFIP1 and releases it from ARFs (PubMed:22981988). In turn, ARFs induce fission (PubMed:22981988). Through this mechanism, ensures proper secretory granule formation at the Golgi of pancreatic beta cells (PubMed:22981988). Forms homodimers or heterodimers with ARFIP2 (PubMed:21239483). Interacts with non-myristoylated GTP-bound ARF3, but not to GDP-bound ARF3 (PubMed:10413101). Interacts with ARF1 (PubMed:10413101, PubMed:22981988). Binds with lower affinity to ARF5 and with very little affinity to ARF6 (PubMed:10413101). Interacts with ARL1 (PubMed:22981988, PubMed:21239483). Interacts with ATG9A (PubMed:30917996). Ubiquitously expressed (PubMed:9038142). Higher levels in liver, pancreas, placenta, skeletal muscle and heart (PubMed:9038142). Phosphorylated by PRKD1; phosphorylation delocalizes ARFIP1 from the Golgi and disrupts its ability to inhibit the activity of ADP-ribosylation factor, an important component of the vesicle scission machinery.
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