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protein coding gene - arg5 (SPBC56F2.09c) - arginine specific carbamoyl-phosphate synthase subunit Arg5

Gene summary

Standard name
arg5
Systematic ID
SPBC56F2.09c
Product
arginine specific carbamoyl-phosphate synthase subunit Arg5
Organism
Schizosaccharomyces pombe (fission yeast)
UniProt ID
O60060
ORFeome ID
19/19H10
Characterisation status
biological role published
Feature type
mRNA gene
Genomic location
chromosome II: 4094270..4096292 forward strand

Annotation

Disease association

MONDO:0009376 - carbamoyl phosphate synthetase I deficiency disease

References:

GO biological process

GO:0006207 - 'de novo' pyrimidine nucleobase biosynthetic process

References:

GO:0006526 - L-arginine biosynthetic process

References:

GO:0006541 - L-glutamine metabolic process

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GO:0000050 - urea cycle

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GO cellular component

GO:0005951 - carbamoyl-phosphate synthase complex

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GO:0005737 - cytoplasm

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GO:0005759 - mitochondrial matrix

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GO molecular function

GO:0004087 - carbamoyl-phosphate synthase (ammonia) activity

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GO:0004088 - carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity

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GO:0004359 - glutaminase activity

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Protein sequence feature

SO:0001808 - mitochondrial_targeting_signal

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Qualitative gene expression

PomGeneEx:0000019 - protein level decreased

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PomGeneEx:0000012 - RNA level decreased

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PomGeneEx:0000011 - RNA level increased

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Quantitative gene expression

PBO:0006310 - protein level

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PBO:0011963 - RNA level

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Single locus phenotype

FYPO:0000080 - decreased cell population growth at low temperature

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Genotypes:

FYPO:0003743 - decreased cell population growth during glucose starvation

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Genotypes:

FYPO:0009078 - decreased cell population growth on ethanol carbon source

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Genotypes:

FYPO:0000251 - decreased cell population growth on galactose carbon source

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Genotypes:

FYPO:0009053 - decreased cell population growth on glutamate nitrogen source

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Genotypes:

FYPO:0009100 - decreased cell population growth on glycerol and galactose carbon source

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Genotypes:

FYPO:0000684 - decreased cell population growth on glycerol carbon source

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Genotypes:

FYPO:0009091 - decreased cell population growth on lysine and proline nitrogen source

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Genotypes:

FYPO:0002924 - decreased cell population growth on maltose carbon source

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Genotypes:

FYPO:0000250 - decreased cell population growth on proline nitrogen source

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Genotypes:

FYPO:0009097 - decreased cell population growth on xylose carbon source

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Genotypes:

FYPO:0000035 - growth auxotrophic for arginine

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Genotypes:

FYPO:0009072 - increased cell population growth on lysine nitrogen source

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Genotypes:

FYPO:0004557 - increased vegetative cell population growth

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Genotypes:

FYPO:0009036 - resistance to benzamidine

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Genotypes:

FYPO:0009068 - resistance to ciclopirox olamine

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Genotypes:

FYPO:0000764 - resistance to cycloheximide

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Genotypes:

FYPO:0002693 - resistance to diamide

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Genotypes:

FYPO:0009038 - resistance to egtazic acid

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Genotypes:

FYPO:0009034 - resistance to ethylenediaminetetraacetic acid

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Genotypes:

FYPO:0009085 - resistance to lithium chloride and sodium dodecyl sulfate

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Genotypes:

FYPO:0009087 - resistance to magnesium chloride and sodium dodecyl sulfate

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Genotypes:

FYPO:0009081 - resistance to potassium chloride and methyl methanesulfonate

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Genotypes:

FYPO:0005266 - resistance to sodium dodecyl sulfate

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Genotypes:

FYPO:0009040 - resistance to tea tree oil

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Genotypes:

FYPO:0002767 - resistance to terbinafine

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Genotypes:

FYPO:0003383 - resistance to tert-butyl hydroperoxide

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Genotypes:

FYPO:0001034 - resistance to tunicamycin

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Genotypes:

FYPO:0009060 - resistance to wortmannin

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Genotypes:

FYPO:0007933 - sensitive to 2,2′-dipyridyl

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Genotypes:

FYPO:0000097 - sensitive to caffeine during vegetative growth

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Genotypes:

FYPO:0001188 - sensitive to Calcofluor White

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Genotypes:

FYPO:0000799 - sensitive to diamide

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Genotypes:

FYPO:0007931 - sensitive to egtazic acid

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Genotypes:

FYPO:0000842 - sensitive to ethanol during vegetative growth

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Genotypes:

FYPO:0000088 - sensitive to hydroxyurea

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Genotypes:

FYPO:0001719 - sensitive to lithium

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Genotypes:

FYPO:0006836 - sensitive to magnesium chloride

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Genotypes:

FYPO:0001214 - sensitive to potassium chloride

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Genotypes:

FYPO:0007924 - sensitive to potassium chloride and sodium dodecyl sulfate

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Genotypes:

FYPO:0001457 - sensitive to tunicamycin

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Genotypes:

FYPO:0000115 - sensitive to valproic acid

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Genotypes:

FYPO:0003656 - sensitive to vanadate

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Genotypes:

FYPO:0002060 - viable vegetative cell population

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Genotypes:

FYPO:0002177 - viable vegetative cell with normal cell morphology

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Genotypes:

Taxonomic conservation

PBO:0011067 - conserved in bacteria

PBO:0011065 - conserved in eukaryotes

PBO:0011064 - conserved in fungi

PBO:0011069 - conserved in metazoa

PBO:0011070 - conserved in vertebrates

PBO:0006222 - predominantly single copy (one to one)

Protein features

IDNameInterPro nameDB name
PF00117GATaseGATASEPFAM
PF00988CPSase_sm_chainCarbamoylP_synth_ssu_NPFAM
cd01744GATase1_CPSaseCPSase_GATase1CDD
PS51273GATASE_TYPE_1PROSITE_PROFILES
SM01097CPSase_sm_chain_2CarbamoylP_synth_ssu_NSMART
PR00099CPSGATASEPRINTS
PR00097ANTSNTHASEIIPRINTS
PR00096GATASEPRINTS
G3DSA:3.40.50.880:FF:000016FUNFAM
G3DSA:3.50.30.20:FF:000003FUNFAM
SSF52021Carbamoyl phosphate synthetase, small subunit N-terminal domainCarbP_synth_ssu_N_sfSUPERFAMILY
SSF52317Class I glutamine amidotransferase-likeClass_I_gatase-likeSUPERFAMILY
G3DSA:3.50.30.20CarbP_synth_ssu_N_sfGENE3D
G3DSA:3.40.50.880Class_I_gatase-likeGENE3D
PTHR43418MULTIFUNCTIONAL TRYPTOPHAN BIOSYNTHESIS PROTEIN-RELATEDAnth_synth/AmidotransfasePANTHER
MF_01209CPSase_S_chainCarbamoylP_synth_ssuHAMAP
TIGR01368CPSaseIIsmallCarbamoylP_synth_ssuNCBIFAM
NF009475PRK12838.1NCBIFAM

Orthologs

References / Literature

GO_REF:0000111 - Gene Ontology annotations Inferred by Curator (IC) using at least one Inferred by Sequence Similarity (ISS) annotation to support the inference
PMID:16823372 - ORFeome cloning and global analysis of protein localization in the fission yeast Schizosaccharomyces pombe.
Matsuyama A et al. Nat Biotechnol 2006 Jul;24(7):841-7
PMID:23101633 - Quantitative analysis of fission yeast transcriptomes and proteomes in proliferating and quiescent cells.
Marguerat S et al. Cell 2012 Oct 26;151(3):671-83
PMID:23697806 - A genome-wide resource of cell cycle and cell shape genes of fission yeast.
Hayles J et al. Open Biol 2013 May 22;3(5):130053
GO_REF:0000116 - Automatic Gene Ontology annotation based on Rhea mapping.
PMID:28218250 - Chromatin remodeller Fun30 Fft3 induces nucleosome disassembly to facilitate RNA polymerase II elongation.
Lee J et al. Nat Commun 2017 Feb 20;8:14527
PMID:21511999 - Comparative functional genomics of the fission yeasts.
Rhind N et al. Science 2011 May 20;332(6032):930-6
PMID:20473289 - Analysis of a genome-wide set of gene deletions in the fission yeast Schizosaccharomyces pombe.
Kim DU et al. Nat Biotechnol 2010 Jun;28(6):617-623
PMID:27918601 - Identifying genes required for respiratory growth of fission yeast.
Malecki M et al. Wellcome Open Res 2016;1:12
PMID:39367033 - Quantitative proteomics and phosphoproteomics profiling of meiotic divisions in the fission yeast Schizosaccharomyces pombe.
Sivakova B et al. Sci Rep 2024 Oct 04;14(1):23105
PMID:31626996 - Multiplexed proteome profiling of carbon source perturbations in two yeast species with SL-SP3-TMT.
Paulo JA et al. J Proteomics 2020 Jan 06;210:103531
PMID:22119525 - SIN-inhibitory phosphatase complex promotes Cdc11p dephosphorylation and propagates SIN asymmetry in fission yeast.
Singh NS et al. Curr Biol 2011 Dec 06;21(23):1968-78
GO_REF:0000024 - Manual transfer of experimentally-verified manual GO annotation data to orthologs by curator judgment of sequence similarity.
PMID:29432178 - General amino acid control in fission yeast is regulated by a nonconserved transcription factor, with functions analogous to Gcn4/Atf4.
Duncan CDS et al. Proc Natl Acad Sci U S A 2018 Feb 20;115(8):E1829-E1838
PMID:38269097 - Rapamycin-sensitive mechanisms confine the growth of fission yeast below the temperatures detrimental to cell physiology.
Morozumi Y et al. iScience 2024 Jan 19;27(1):108777
PMID:22540037 - Predicting the fission yeast protein interaction network.
Pancaldi V et al. G3 (Bethesda) 2012 Apr;2(4):453-67
PMID:31657618 - A Genome-Wide Screen for Wortmannin-Resistant Mutants in Schizosaccharomyces pombe: The Phosphorylation-Impaired Mutants Are Resistant to Signaling Defect.
Yılmazer M et al. DNA Cell Biol 2019 Dec;38(12):1427-1436
GO_REF:0000033 - Annotation inferences using phylogenetic trees
PMID:24763107 - Absolute proteome and phosphoproteome dynamics during the cell cycle of Schizosaccharomyces pombe (Fission Yeast).
Carpy A et al. Mol Cell Proteomics 2014 Aug;13(8):1925-36
PMID:36408920 - UniProt: the Universal Protein Knowledgebase in 2023.
UniProt Consortium Nucleic Acids Res 2023 Jan 06;51(D1):D523-D531
PMID:36478272 - Translation-complex profiling of fission yeast cells reveals dynamic rearrangements of scanning ribosomal subunits upon nutritional stress.
Duncan CDS et al. Nucleic Acids Res 2022 Dec 09;50(22):13011-13025
PMID:19139265 - The SH3 domains of two PCH family members cooperate in assembly of the Schizosaccharomyces pombe contractile ring.
Roberts-Galbraith RH et al. J Cell Biol 2009 Jan 12;184(1):113-27
PMID:32896087 - Mitochondrial respiration is required to provide amino acids during fermentative proliferation of fission yeast.
Malecki M et al. EMBO Rep 2020 Nov 05;21(11):e50845
PMID:37787768 - Broad functional profiling of fission yeast proteins using phenomics and machine learning.
Rodríguez-López M et al. Elife 2023 Oct 03;12
PB_REF:0000006 - Disease associations from Monarch via human-pombe orthologs
PMID:17248775 - Genetic Mapping in SCHIZOSACCHAROMYCES POMBE by Mitotic and Meiotic Analysis and Induced Haploidization.
Kohli J et al. Genetics 1977 Nov;87(3):471-89
GO_REF:0000002 - Comments
PMID:16537923 - Sterol regulatory element binding protein is a principal regulator of anaerobic gene expression in fission yeast.
Todd BL et al. Mol Cell Biol 2006 Apr;26(7):2817-31
PMID:33313903 - Ribosome profiling reveals ribosome stalling on tryptophan codons and ribosome queuing upon oxidative stress in fission yeast.
Rubio A et al. Nucleic Acids Res 2021 Jan 11;49(1):383-399