Protein URA1 (P07259) - Yeast Metabolome Database

Identification

Name

Protein URA1

Synonyms

Glutamine-dependent carbamoyl-phosphate synthase
Aspartate carbamoyltransferase

Gene Name

URA2

Enzyme Class

Biological Properties

General Function

Involved in carboxyl- or carbamoyltransferase activity

Specific Function

This protein is a "fusion" protein encoding three enzymatic activities of the pyrimidine pathway (GATase, CPSase, and ATCase)

Cellular Location

Not Available

SMPDB Pathways

Pyrimidine metabolism

PW002469

KEGG Pathways

Alanine, aspartate and glutamate metabolism	ec00250
Pyrimidine metabolism	ec00240

SMPDB Reactions

KEGG Reactions

L-Aspartic acid + Carbamoylphosphate → Ureidosuccinic acid + phosphate + hydron

Carbonic acid + Adenosine triphosphate + water + L-Glutamine → phosphate + L-Glutamic acid + hydron + Carbamoylphosphate + ADP

Metabolites

YMDB ID	Name	View
YMDB00002	L-Glutamine	Show
YMDB00027	Ureidosuccinic acid	Show
YMDB00082	Carbamoylphosphate	Show
YMDB00109	Adenosine triphosphate	Show
YMDB00271	L-Glutamic acid	Show
YMDB00382	Carbonic acid	Show
YMDB00862	hydron	Show
YMDB00890	water	Show
YMDB00896	L-Aspartic acid	Show
YMDB00907	phosphate	Show
YMDB00914	ADP	Show
YMDB01008	N-Carbamoyl-L-aspartate	Show
YMDB16118	Hydrogen carbonate	Show

GO Classification

Component
Not Available
Function
ligase activity, forming carbon-nitrogen bonds
aspartate carbamoyltransferase activity
carboxylic acid binding
amino acid binding
transferase activity, transferring one-carbon groups
carboxyl- or carbamoyltransferase activity
binding
nucleoside binding
purine nucleoside binding
catalytic activity
adenyl nucleotide binding
transferase activity
adenyl ribonucleotide binding
ATP binding
ligase activity
carbamoyl-phosphate synthase activity
Process
nitrogen compound metabolic process
cellular metabolic process
cellular aromatic compound metabolic process
cellular amino acid and derivative metabolic process
nucleobase metabolic process
cellular amino acid metabolic process
pyrimidine base metabolic process
glutamine family amino acid metabolic process
pyrimidine base biosynthetic process
glutamine metabolic process
'de novo' pyrimidine base biosynthetic process
metabolic process

Gene Properties

Chromosome Location

chromosome 10

Locus

YJL130C

Gene Sequence

>6645 bp ATGGCCACTATTGCTCCCACTGCTCCAATCACCCCTCCAATGGAATCTACGGGTGACCGT CTGGTTACGTTGGAACTTAAGGACGGCACGGTCTTACAAGGTTATTCATTTGGTGCTGAG AAATCCGTCGCTGGTGAATTAGTTTTCCAAACTGGTATGGTTGGTTATCCTGAATCTGTG ACCGATCCATCTTATGAAGGCCAGATCTTAGTCATCACTTACCCATTGGTAGGCAATTAT GGTGTCCCAGATATGCACTTGAGAGATGAATTGGTCGAAGAATTGCCAAGATATTTTGAA AGTAATAGAATCCATATTGCCGGTTTAGTTATTTCTCACTATACCGACGAGTACTCTCAT TATCTTGCTAAATCTTCCTTAGGTAAATGGTTACAAAATGAAGGGATCCCAGCTGTTTAT GGTGTTGATACAAGATCATTGACCAAGCATTTGAGAGATGCAGGTTCAATGTTGGGTAGG TTGTCTTTGGAAAAAAGCGGCTCTGACAGAACCATCTCCAGATCTTCCTCTTGGAGAAGT GCGTTTGATGTTCCTGAATGGGTGGATCCAAATGTTCAAAACCTAGTTTCTAAGGTCTCC ATCAATGAACCTAAATTGTACGTTCCTCCAGCAGACAATAAGCACATCGAATTGCAAACC GGACCCGATGGTAAAGTTTTAAGGATTCTAGCCATTGACGTGGGTATGAAATACAATCAA ATTCGTTGTTTTATCAAAAGGGGTGTAGAATTGAAAGTTGTTCCATGGAACTACGATTTC ACTAAAGAAGATTATGATGGTCTGTTTATTTCAAATGGTCCAGGTGATCCATCTGTTCTA GATGATCTATCTCAAAGATTGTCAAATGTCCTGGAGGCTAAAAAGACGCCAGTATTCGGT ATTTGTCTCGGTCATCAATTGATAGCAAGAGCTGCCGGTGCATCCACCCTAAAACTAAAA TTTGGTAACCGTGGTCATAACATACCTTGTACATCAACTATAAGTGGTCGTTGTTACATA ACATCTCAAAACCATGGGTTCGCTGTGGATGTTGACACTCTAACTTCCGGATGGAAGCCA TTGTTTGTTAACGCGAATGATGACTCTAACGAAGGTATCTATCATTCTGAATTACCTTAT TTTTCCGTCCAATTCCATCCAGAATCCACACCTGGCCCAAGAGATACAGAATTCTTGTTT GACGTTTTTATCCAAGCAGTTAAAGAATTCAAGTATACACAAGTGTTGAAACCAATCGCT TTCCCAGGTGGCCTATTAGAGGATAACGTTAAGGCACACCCTAGAATCGAAGCGAAGAAG GTTCTAGTTCTCGGTTCTGGTGGTTTGTCCATCGGTCAAGCTGGTGAATTTGACTACTCT GGTTCTCAAGCCATCAAAGCTTTGAAAGAAGAAGGTATCTATACAATTTTAATTAATCCA AACATTGCTACCATCCAAACTTCGAAAGGGTTGGCTGATAAGGTTTATTTTGTTCCTGTT ACTGCAGAGTTCGTGAGAAAAGTTATTTTACATGAAAGGCCGGACGCCATTTATGTGACA TTTGGTGGACAAACTGCTTTATCTGTTGGTATAGCCATGAAAGATGAATTTGAGGCGTTA GGAGTTAAAGTATTGGGTACTCCAATCGATACTATTATTACCACGGAAGACCGTGAACTC TTCAGTAATGCCATTGACGAAATTAATGAAAAATGTGCGAAATCTCAAGCTGCTAATTCA GTGGACGAGGCATTGGCCGCTGTCAAGGAGATCGGTTTCCCAGTTATTGTACGTGCTGCA TATGCATTGGGAGGTTTAGGTTCCGGTTTCGCTAATAATGAAAAAGAATTGGTTGATCTA TGTAATGTTGCATTTTCATCCTCACCTCAAGTTTTAGTCGAGAAATCTATGAAAGGTTGG AAAGAAGTCGAATATGAAGTTGTTCGTGATGCTTTTGACAACTGTATTACTGTTTGTAAT ATGGAAAATTTTGATCCACTAGGTATTCACACCGGTGATTCCATCGTTGTAGCCCCATCT CAAACTTTATCTGATGAAGATTACAATATGTTAAGAACTACTGCTGTTAATGTTATTAGA CACTTAGGTGTTGTTGGTGAATGTAATATCCAATATGCTTTAAATCCCGTTTCTAAGGAT TATTGCATCATTGAAGTTAATGCGCGTTTGTCACGTTCCTCTGCTTTAGCTTCTAAGGCT ACTGGTTACCCATTGGCCTACACTGCGGCTAAGTTAGGTTTGAATATCCCATTAAATGAA GTTAAGAATTCCGTCACAAAATCCACATGTGCTTGTTTTGAACCTTCTCTAGACTACTGT GTTGTCAAAATGCCAAGATGGGATTTGAAGAAGTTCACCAGAGTTTCTACCGAATTATCT TCATCAATGAAATCTGTTGGTGAAGTTATGAGCATCGGTAGAACCTTCGAAGAAGCTATT CAAAAAGCTATCAGATCCACAGAATATGCTAACCTCGGATTCAATGAGACAGATCTAGAT ATCGACATTGATTACGAGTTGAACAACCCTACGGATATGCGTGTCTTCGCCATTGCAAAT GCTTTTGCTAAGAAGGGATATTCTGTTGATAAAGTCTGGGAAATGACTAGAATTGATAAG TGGTTTTTAAACAAACTGCACGATTTGGTCCAATTTGCTGAGAAAATTAGTTCATTTGGT ACTAAAGAGGAATTACCTTCCTTAGTTTTAAGACAGGCTAAGCAGTTAGGTTTTGATGAC AGACAGATTGCAAGATTTTTGGATTCCAACGAAGTTGCCATCCGTAGATTAAGAAAAGAA TATGGAATTACACCATTTGTCAAACAAATTGATACAGTTGCCGCTGAATTCCCCGCTTAC ACGAACTATTTATACATGACATACAATGCTGACTCACACGATTTATCCTTTGATGACCAC GGTGTTATGGTCTTGGGTTCTGGTGTTTACCGTATCGGTTCTTCTGTCGAATTTGATTGG TGTGCTGTTACTGCAGTTAGAACATTACGTGCCAACAATATCAAAACTATCATGGTCAAC TATAATCCAGAAACTGTTTCCACAGATTATGATGAGGCTGATAGACTATACTTTGAAACC ATCAACCTTGAAAGAGTTTTGGATATTTACGAGATTGAAAACTCAAGCGGTGTTGTCGTA TCAATGGGTGGTCAAACTTCCAACAACATCGCCATGACTTTACATCGTGAAAATGTAAAG ATTCTTGGTACATCCCCTGACATGATTGATTCTGCTGAAAACCGTTACAAGTTCTCTCGT ATGTTGGATCAAATTGGTGTTGACCAACCAGCTTGGAAAGAATTGACATCCATGGACGAA GCTGAATCTTTTGCCGAAAAGGTGGGTTATCCAGTTTTGGTACGTCCATCTTATGTGTTA TCCGGTGCCGCCATGAATACTGTTTATTCTAAAAACGATTTGGAATCCTACTTAAACCAA GCCGTCGAAGTTTCACGTGATTATCCTGTTGTTATCACTAAATATATTGAAAACGCAAAG GAGATTGAAATGGATGCAGTTGCAAGAAATGGTGAATTGGTTATGCATGTTGTCTCTGAG CATGTTGAAAATGCAGGTGTCCACTCGGGTGATGCAACATTAATCGTTCCACCTCAAGAT TTGGCTCCTGAAACTGTGGATAGAATTGTTGTCGCCACTGCTAAAATTGGTAAGGCTTTG AAAATTACAGGTCCATACAACATCCAATTCATTGCAAAGGACAATGAAATCAAGGTCATA GAATGTAATGTTCGTGCTTCGAGATCTTTCCCATTCATTTCAAAGGTTGTTGGCGTCAAT CTGATTGAATTGGCAACAAAGGCCATAATGGGTTTGCCTTTGACGCCTTATCCTGTTGAA AAATTACCAGATGATTATGTCGCCGTTAAAGTACCACAATTCTCTTTCCCACGTTTAGCA GGAGCTGATCCAGTCTTAGGTGTTGAAATGGCCTCTACTGGTGAAGTCGCTACTTTTGGC CACTCGAAGTATGAAGCATACTTAAAGTCTTTGTTGGCAACCGGCTTCAAACTTCCAAAG AAGAATATTTTATTGTCTATTGGTTCTTACAAGGAAAAACAAGAATTGCTTTCTTCCGTA CAAAAACTATACAACATGGGATATAAATTATTTGCAACATCAGGTACTGCTGACTTTTTA TCTGAACATGGTATTGCCGTCCAATATCTGGAGGTTTTAAACAAGGATGATGATGATCAA AAATCAGAATACTCACTTACTCAACATTTGGCTAATAATGAAATTGACCTTTACATCAAC TTGCCTTCTGCCAACAGGTTCCGTCGTCCTGCATCCTATGTTTCAAAGGGGTATAAAACA CGTCGTTTGGCTGTCGATTATTCGGTTCCGTTGGTTACTAACGTTAAATGTGCAAAATTG TTGATTGAAGCCATTTCAAGAAATATCACTTTAGATGTTTCTGAACGTGATGCACAAACT TCCCACAGAACTATTACCTTACCTGGTTTAATCAATATCGCAACTTATGTTCCGAATGCA TCCCATGTTATCAAAGGCCCAGCTGAACTGAAGGAGACCACACGTCTATTTTTGGAATCC GGTTTTACATACTGTCAATTGATGCCCAGATCCATCAGCGGACCTGTTATTACTGACGTT GCATCCTTGAAGGCCGCAAACTCTGTTTCCCAAGATTCATCTTACACTGACTTTTCTTTC ACTATTGCTGGTACAGCACACAATGCTCATAGTGTTACGCAATCTGCTAGCAAAGTGACA GCATTGTTTTTGCCCCTACGTGAATTAAAGAACAAGATCACAGCAGTAGCTGAACTTCTG AATCAGTGGCCAACTGAAAAGCAAGTGATTGCAGAAGCTAAAACTGCAGATTTGGCATCG GTTTTATTGTTAACCTCCCTTCAAAACAGATCTATTCACATTACTGGTGTTTCGAATAAG GAAGATTTAGCTTTGATCATGACGGTCAAGGCAAAAGACCCTAGAGTGACTTGTGATGTC AATATTTATTCTTTGTTTATTGCCCAAGATGACTATCCGGAGGCAGTTTTCTTGCCTACT AAGGAAGATCAAGAGTTTTTCTGGAACAACCTTGATAGTATCGATGCTTTCTCTGTCGGT GCTCTTCCTGTCGCCTTGGCAAATGTCACAGGTAACAAGGTTGATGTTGGTATGGGTATC AAAGATTCATTACCACTATTGTTGGCTGCTGTTGAAGAAGGTAAATTAACCATTGATGAT ATCGTCCTTCGTCTGCATGACAATCCCGCTAAAATTTTCAACATCCCTACTCAGGACTCA GTTGTCGAAATTGATTTGGATTATTCTTTCAGACGTAATAAGAGATGGTCACCATTCAAC AAAGATATGAACGGTGGTATTGAGCGTGTTGTCTATAATGGCGAAACATTAGTTTTGAGC GGTGAATTAGTTTCACCAGGCGCCAAAGGAAAATGCATTGTTAATCCAAGTCCAGCTTCC ATAACTGCTTCCGCAGAGCTCCAATCTACTAGTGCTAAAAGAAGGTTCTCGATCACGGAA GAAGCAATCGCTGATAATTTAGATGCCGCGGAGGATGCAATTCCAGAACAGCCTTTGGAA CAAAAATTGATGTCTTCAAGGCCACCAAGAGAACTTGTTGCTCCAGGCGCCATCCAGAAT TTGATCCGTAGTAACAATCCATTCCGCGGAAGACATATATTGTCTATCAAACAATTCAAA CGTTCTGATTTCCATGTGTTGTTTGCTGTTGCACAAGAACTAAGGGCACGTGTCGCAAGA GAAGGTGTCTTAGATTTAATGAAAGGCCACGTTATTACTACAATTTTCTTTGAACCATCT ACTCGTACTTGTTCTTCATTCATTGCTGCTATGGAACGTTTGGGTGGTAGAATTGTAAAT GTTAATCCATTGGTGTCTTCTGTCAAGAAAGGTGAAACCCTTCAAGATACTATCAGAACT TTGGCTTGTTACAGTGATGCCATTGTCATGCGTCATTCAGAAGAAATGTCTGTTCATATC GCCGCTAAATATTCTCCTGTTCCAATTATTAATGGTGGTAATGGTTCTCGCGAGCATCCT ACGCAGGCCTTCTTGGATTTGTTTACGATTCGTGAAGAAATCGGTACTGTTAATGGTATT ACTGTTACTTTCATGGGTGATCTCAAACATGGTAGAACCGTACATTCATTGTGTCGTTTG TTAATGCACTATCAAGTCAGAATTAATCTTGTTTCTCCTCCGGAATTGAGGTTACCAGAA GGATTAAGAGAAGAGCTAAGAAAAGCTGGCTTACTTGGTGTTGAGAGCATTGAATTAACC CCTCATATCATCTCAAAGACCGATGTTCTGTATTGTACAAGGGTCCAAGAAGAAAGATTC AATAGCCCTGAAGAATATGCACGTCTGAAGGATACTTATATCGTGGACAACAAGATCTTG GCACACGCCAAAGAAAATATGGCTATCATGCATCCATTGCCTCGTGTAAATGAAATCAAA GAGGAAGTGGACTACGATCATCGTGCTGCTTACTTCAGACAAATGAAGTATGGTTTGTTC GTCAGAATGGCTTTGTTGGCCATGGTCATGGGTGTTGATATGTGA

Protein Properties

Pfam Domain Function

GATase (PF00117 )
CPSase_sm_chain (PF00988 )
CPSase_L_chain (PF00289 )
CPSase_L_D2 (PF02786 )
CPSase_L_D3 (PF02787 )
MGS (PF02142 )
OTCace (PF00185 )
OTCace_N (PF02729 )

Protein Residues

2214

Protein Molecular Weight

245124.0

Protein Theoretical pI

5.64

Signalling Regions

None

Transmembrane Regions

None

Protein Sequence

>Protein URA1 MATIAPTAPITPPMESTGDRLVTLELKDGTVLQGYSFGAEKSVAGELVFQTGMVGYPESV TDPSYEGQILVITYPLVGNYGVPDMHLRDELVEELPRYFESNRIHIAGLVISHYTDEYSH YLRKSSLGKWLQNEGIPAVYGVDTRSLTKHLRDAGSMLGRLSLEKSGSDRTISRSSSWRS AFDVPEWVDPNVQNLVSKVSINEPKLYVPPADNKHIELQTGPDGKVLRILAIDVGMKYNQ IRCFIKRGVELKVVPWNYDFTKEDYDGLFISNGPGDPSVLDDLSQRLSNVLEAKKTPVFG ICLGHQLIARAAGASTLKLKFGNRGHNIPCTSTISGRCYITSQNHGFAVDVDTLTSGWKP LFVNANDDSNEGIYHSELPYFSVQFHPESTPGPRDTEFLFDVFIQAVKEFKYTQVLKPIA FPGGLLEDNVKAHPRIEAKKVLVLGSGGLSIGQAGEFDYSGSQAIKALKEEGIYTILINP NIATIQTSKGLADKVYFVPVTAEFVRKVILHERPDAIYVTFGGQTALSVGIAMKDEFEAL GVKVLGTPIDTIITTEDRELFSNAIDEINEKCAKSQAANSVDEALAAVKEIGFPVIVRAA YALGGLGSGFANNEKELVDLCNVAFSSSPQVLVEKSMKGWKEVEYEVVRDAFDNCITVCN MENFDPLGIHTGDSIVVAPSQTLSDEDYNMLRTTAVNVIRHLGVVGECNIQYALNPVSKD YCIIEVNARLSRSSALASKATGYPLAYTAAKLGLNIPLNEVKNSVTKSTCACFEPSLDYC VVKMPRWDLKKFTRVSTELSSSMKSVGEVMSIGRTFEEAIQKAIRSTEYANLGFNETDLD IDIDYELNNPTDMRVFAIANAFAKKGYSVDKVWEMTRIDKWFLNKLHDLVQFAEKISSFG TKEELPSLVLRQAKQLGFDDRQIARFLDSNEVAIRRLRKEYGITPFVKQIDTVAAEFPAY TNYLYMTYNADSHDLSFDDHGVMVLGSGVYRIGSSVEFDWCAVTAVRTLRANNIKTIMVN YNPETVSTDYDEADRLYFETINLERVLDIYEIENSSGVVVSMGGQTSNNIAMTLHRENVK ILGTSPDMIDSAENRYKFSRMLDQIGVDQPAWKELTSMDEAESFAEKVGYPVLVRPSYVL SGAAMNTVYSKNDLESYLNQAVEVSRDYPVVITKYIENAKEIEMDAVARNGELVMHVVSE HVENAGVHSGDATLIVPPQDLAPETVDRIVVATAKIGKALKITGPYNIQFIAKDNEIKVI ECNVRASRSFPFISKVVGVNLIELATKAIMGLPLTPYPVEKLPDDYVAVKVPQFSFPRLA GADPVLGVEMASTGEVATFGHSKYEAYLKSLLATGFKLPKKNILLSIGSYKEKQELLSSV QKLYNMGYKLFATSGTADFLSEHGIAVQYLEVLNKDDDDQKSEYSLTQHLANNEIDLYIN LPSANRFRRPASYVSKGYKTRRLAVDYSVPLVTNVKCAKLLIEAISRNITLDVSERDAQT SHRTITLPGLINIATYVPNASHVIKGPAELKETTRLFLESGFTYCQLMPRSISGPVITDV ASLKAANSVSQDSSYTDFSFTIAGTAHNAHSVTQSASKVTALFLPLRELKNKITAVAELL NQWPTEKQVIAEAKTADLASVLLLTSLQNRSIHITGVSNKEDLALIMTVKAKDPRVTCDV NIYSLFIAQDDYPEAVFLPTKEDQEFFWNNLDSIDAFSVGALPVALANVTGNKVDVGMGI KDSLPLLLAAVEEGKLTIDDIVLRLHDNPAKIFNIPTQDSVVEIDLDYSFRRNKRWSPFN KDMNGGIERVVYNGETLVLSGELVSPGAKGKCIVNPSPASITASAELQSTSAKRRFSITE EAIADNLDAAEDAIPEQPLEQKLMSSRPPRELVAPGAIQNLIRSNNPFRGRHILSIKQFK RSDFHVLFAVAQELRAAVAREGVLDLMKGHVITTIFFEPSTRTCSSFIAAMERLGGRIVN VNPLVSSVKKGETLQDTIRTLACYSDAIVMRHSEEMSVHIAAKYSPVPIINGGNGSREHP TQAFLDLFTIREEIGTVNGITVTFMGDLKHGRTVHSLCRLLMHYQVRINLVSPPELRLPE GLREELRKAGLLGVESIELTPHIISKTDVLYCTRVQEERFNSPEEYARLKDTYIVDNKIL AHAKENMAIMHPLPRVNEIKEEVDYDHRAAYFRQMKYGLFVRMALLAMVMGVDM

References

External Links

Resource	Link
Saccharomyces Genome Database	URA2
Uniprot ID	P07259
Uniprot Name	PYR1_YEAST
GenBank Gene ID	M27174
Genebank Protein ID	173146

General Reference

Souciet, J. L., Nagy, M., Le Gouar, M., Lacroute, F., Potier, S. (1989). "Organization of the yeast URA2 gene: identification of a defective dihydroorotase-like domain in the multifunctional carbamoylphosphate synthetase-aspartate transcarbamylase complex." Gene 79:59-70.2570735
Galibert, F., Alexandraki, D., Baur, A., Boles, E., Chalwatzis, N., Chuat, J. C., Coster, F., Cziepluch, C., De Haan, M., Domdey, H., Durand, P., Entian, K. D., Gatius, M., Goffeau, A., Grivell, L. A., Hennemann, A., Herbert, C. J., Heumann, K., Hilger, F., Hollenberg, C. P., Huang, M. E., Jacq, C., Jauniaux, J. C., Katsoulou, C., Karpfinger-Hartl, L., et, a. l. .. (1996). "Complete nucleotide sequence of Saccharomyces cerevisiae chromosome X." EMBO J 15:2031-2049.8641269
Souciet, J. L., Potier, S., Hubert, J. C., Lacroute, F. (1987). "Nucleotide sequence of the pyrimidine specific carbamoyl phosphate synthetase, a part of the yeast multifunctional protein encoded by the URA2 gene." Mol Gen Genet 207:314-319.3039294
Cziepluch, C., Kordes, E., Pujol, A., Jauniaux, J. C. (1996). "Sequencing analysis of a 40.2 kb fragment of yeast chromosome X reveals 19 open reading frames including URA2 (5' end), TRK1, PBS2, SPT10, GCD14, RPE1, PHO86, NCA3, ASF1, CCT7, GZF3, two tRNA genes, three remnant delta elements and a Ty4 transposon." Yeast 12:1471-1474.8948101
Juneau, K., Palm, C., Miranda, M., Davis, R. W. (2007). "High-density yeast-tiling array reveals previously undiscovered introns and extensive regulation of meiotic splicing." Proc Natl Acad Sci U S A 104:1522-1527.17244705
Zhang, Z., Hesselberth, J. R., Fields, S. (2007). "Genome-wide identification of spliced introns using a tiling microarray." Genome Res 17:503-509.17351133
Katsoulou, C., Tzermia, M., Tavernarakis, N., Alexandraki, D. (1996). "Sequence analysis of a 40.7 kb segment from the left arm of yeast chromosome X reveals 14 known genes and 13 new open reading frames including homologues of genes clustered on the right arm of chromosome XI." Yeast 12:787-797.8813765
Akada, R., Yamamoto, J., Yamashita, I. (1997). "Screening and identification of yeast sequences that cause growth inhibition when overexpressed." Mol Gen Genet 254:267-274.9150260
Nagy, M., Le Gouar, M., Potier, S., Souciet, J. L., Herve, G. (1989). "The primary structure of the aspartate transcarbamylase region of the URA2 gene product in Saccharomyces cerevisiae. Features involved in activity and nuclear localization." J Biol Chem 264:8366-8374.2498313
Denis-Duphil, M., Lecaer, J. P., Hardie, D. G., Carrey, E. A. (1990). "Yeast carbamoyl-phosphate-synthetase--aspartate-transcarbamylase multidomain protein is phosphorylated in vitro by cAMP-dependent protein kinase." Eur J Biochem 193:581-587.1977585
Ghaemmaghami, S., Huh, W. K., Bower, K., Howson, R. W., Belle, A., Dephoure, N., O'Shea, E. K., Weissman, J. S. (2003). "Global analysis of protein expression in yeast." Nature 425:737-741.14562106
Gruhler, A., Olsen, J. V., Mohammed, S., Mortensen, P., Faergeman, N. J., Mann, M., Jensen, O. N. (2005). "Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway." Mol Cell Proteomics 4:310-327.15665377
Li, X., Gerber, S. A., Rudner, A. D., Beausoleil, S. A., Haas, W., Villen, J., Elias, J. E., Gygi, S. P. (2007). "Large-scale phosphorylation analysis of alpha-factor-arrested Saccharomyces cerevisiae." J Proteome Res 6:1190-1197.17330950
Chi, A., Huttenhower, C., Geer, L. Y., Coon, J. J., Syka, J. E., Bai, D. L., Shabanowitz, J., Burke, D. J., Troyanskaya, O. G., Hunt, D. F. (2007). "Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry." Proc Natl Acad Sci U S A 104:2193-2198.17287358
Smolka, M. B., Albuquerque, C. P., Chen, S. H., Zhou, H. (2007). "Proteome-wide identification of in vivo targets of DNA damage checkpoint kinases." Proc Natl Acad Sci U S A 104:10364-10369.17563356
Albuquerque, C. P., Smolka, M. B., Payne, S. H., Bafna, V., Eng, J., Zhou, H. (2008). "A multidimensional chromatography technology for in-depth phosphoproteome analysis." Mol Cell Proteomics 7:1389-1396.18407956