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protein coding gene - svf1 (SPCC584.11c) - ER to Golgi ceramide transport protein, lipocalin superfamily Svf1

Gene summary

Standard name
svf1
Systematic ID
SPCC584.11c
Product
ER to Golgi ceramide transport protein, lipocalin superfamily Svf1
Organism
Schizosaccharomyces pombe (fission yeast)
UniProt ID
Q09885
ORFeome ID
25/25H03
Characterisation status
biological role inferred
Feature type
mRNA gene
Genomic location
chromosome III: 1511044..1513321 reverse strand

Annotation

GO biological process

GO:0035621 - ER to Golgi ceramide transport

References:

GO:0030148 - sphingolipid biosynthetic process

References:

GO cellular component

GO:0033106 - cis-Golgi network membrane

References:

GO:0005829 - cytosol

References:

GO:0005634 - nucleus

References:

GO molecular function

GO:0097001 - ceramide binding

References:

GO:0120013 - lipid transfer activity

References:

Qualitative gene expression

PomGeneEx:0000012 - RNA level decreased

References:

Quantitative gene expression

PBO:0006310 - protein level

References:

PBO:0011963 - RNA level

References:

Single locus phenotype

FYPO:0003625 - abnormal microtubule cytoskeleton morphology during mitotic interphase

References:

Genotypes:

FYPO:0000080 - decreased cell population growth at low temperature

References:

Genotypes:

FYPO:0003743 - decreased cell population growth during glucose starvation

References:

Genotypes:

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

References:

Genotypes:

FYPO:0009073 - decreased cell population growth on lysine nitrogen source

References:

Genotypes:

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

References:

Genotypes:

FYPO:0001176 - decreased cell population growth on sucrose carbon source

References:

Genotypes:

FYPO:0001355 - decreased vegetative cell population growth

References:

Genotypes:

FYPO:0005258 - increased cell population growth at high temperature

References:

Genotypes:

FYPO:0003938 - increased cell population growth during glucose starvation

References:

Genotypes:

FYPO:0009077 - increased cell population growth on ethanol carbon source

References:

Genotypes:

FYPO:0009095 - increased cell population growth on fructose carbon source

References:

Genotypes:

FYPO:0005261 - increased cell population growth on galactose carbon source

References:

Genotypes:

FYPO:0009101 - increased cell population growth on glycerol and galactose carbon source

References:

Genotypes:

FYPO:0009094 - increased cell population growth on lysine and proline nitrogen source

References:

Genotypes:

FYPO:0009098 - increased cell population growth on mannitol carbon source

References:

Genotypes:

FYPO:0009096 - increased cell population growth on xylose carbon source

References:

Genotypes:

FYPO:0004557 - increased vegetative cell population growth

References:

Genotypes:

FYPO:0000245 - loss of viability in stationary phase

References:

Genotypes:

FYPO:0009036 - resistance to benzamidine

References:

Genotypes:

FYPO:0009032 - resistance to bortezomib

References:

Genotypes:

FYPO:0009068 - resistance to ciclopirox olamine

References:

Genotypes:

FYPO:0000764 - resistance to cycloheximide

References:

Genotypes:

FYPO:0002693 - resistance to diamide

References:

Genotypes:

FYPO:0009038 - resistance to egtazic acid

References:

Genotypes:

FYPO:0009034 - resistance to ethylenediaminetetraacetic acid

References:

Genotypes:

FYPO:0001103 - resistance to hydrogen peroxide

References:

Genotypes:

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

References:

Genotypes:

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

References:

Genotypes:

FYPO:0000725 - resistance to methyl methanesulfonate

References:

Genotypes:

FYPO:0005968 - resistance to sodium chloride

References:

Genotypes:

FYPO:0005266 - resistance to sodium dodecyl sulfate

References:

Genotypes:

FYPO:0000830 - resistance to vanadate

References:

Genotypes:

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

References:

Genotypes:

FYPO:0000084 - sensitive to 6-azauracil

References:

Genotypes:

FYPO:0001097 - sensitive to amitrole

References:

Genotypes:

FYPO:0009067 - sensitive to amorolfine

References:

Genotypes:

FYPO:0007921 - sensitive to benzamidine

References:

Genotypes:

FYPO:0000095 - sensitive to bleomycin

References:

Genotypes:

FYPO:0001501 - sensitive to brefeldin A

References:

Genotypes:

FYPO:0006930 - sensitive to butylated hydroxyanisole

References:

Genotypes:

FYPO:0000097 - sensitive to caffeine during vegetative growth

References:

Genotypes:

FYPO:0001188 - sensitive to Calcofluor White

References:

Genotypes:

FYPO:0000085 - sensitive to camptothecin

References:

Genotypes:

FYPO:0000104 - sensitive to cycloheximide

References:

Genotypes:

FYPO:0000842 - sensitive to ethanol during vegetative growth

References:

Genotypes:

FYPO:0000087 - sensitive to hydrogen peroxide

References:

Genotypes:

FYPO:0000088 - sensitive to hydroxyurea

References:

Genotypes:

FYPO:0009071 - sensitive to itraconazole

References:

Genotypes:

FYPO:0001719 - sensitive to lithium

References:

Genotypes:

FYPO:0006836 - sensitive to magnesium chloride

References:

Genotypes:

FYPO:0009088 - sensitive to magnesium chloride and sodium dodecyl sulfate

References:

Genotypes:

FYPO:0001214 - sensitive to potassium chloride

References:

Genotypes:

FYPO:0009082 - sensitive to potassium chloride and methyl methanesulfonate

References:

Genotypes:

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

References:

Genotypes:

FYPO:0000111 - sensitive to rapamycin

References:

Genotypes:

FYPO:0002328 - sensitive to terbinafine

References:

Genotypes:

FYPO:0000797 - sensitive to tert-butyl hydroperoxide

References:

Genotypes:

FYPO:0002701 - sensitive to torin1

References:

Genotypes:

FYPO:0000115 - sensitive to valproic acid

References:

Genotypes:

FYPO:0009064 - sensitive to X-rays and rapamycin during vegetative growth.

References:

Genotypes:

FYPO:0002760 - short cytoplasmic microtubules

References:

Genotypes:

FYPO:0000647 - vegetative cell lysis

References:

Genotypes:

FYPO:0002380 - viable spheroid vegetative cell

References:

Genotypes:

FYPO:0002060 - viable vegetative cell population

References:

Genotypes:

FYPO:0002197 - viable vegetative cell with abnormal cell shape

References:

Genotypes:

Taxonomic conservation

PBO:0011065 - conserved in eukaryotes

PBO:0011064 - conserved in fungi

PBO:0011063 - conserved in fungi only

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

Protein features

IDNameInterPro nameDB name
PF17187Svf1_CSvf1-like_CPFAM
PF08622Svf1Svf1-like_NPFAM
G3DSA:2.40.370.10:FF:000001FUNFAM
SSF159245AttH-likeSUPERFAMILY
G3DSA:2.40.370.10AttH-like_dom_sfGENE3D
PTHR47107SVF1-LIKE PROTEIN YDR222W-RELATEDSvf1-likePANTHER

Orthologs

References / Literature

PMID:23163955 - Analysis of stress-induced duplex destabilization (SIDD) properties of replication origins, genes and intergenes in the fission yeast, Schizosaccharomyces pombe.
Yadav MP et al. BMC Res Notes 2012 Nov 19;5:643
GO_REF:0000024 - Manual transfer of experimentally-verified manual GO annotation data to orthologs by curator judgment of sequence similarity.
PMID:21511999 - Comparative functional genomics of the fission yeasts.
Rhind N et al. Science 2011 May 20;332(6032):930-6
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
PMID:26173815 - Genome-wide screen of fission yeast mutants for sensitivity to 6-azauracil, an inhibitor of transcriptional elongation.
Zhou H et al. Yeast 2015 Oct;32(10):643-55
PMID:22681890 - Hierarchical modularity and the evolution of genetic interactomes across species.
Ryan CJ et al. Mol Cell 2012 Jun 08;46(5):691-704
PMID:31064814 - Proximity-dependent biotinylation mediated by TurboID to identify protein-protein interaction networks in yeast.
Larochelle M et al. J Cell Sci 2019 May 31;132(11)
PMID:40015273 - A comprehensive Schizosaccharomyces pombe atlas of physical transcription factor interactions with proteins and chromatin.
Skribbe M et al. Mol Cell 2025 Feb 19;
PMID:30647105 - Comparative Genomic Screen in Two Yeasts Reveals Conserved Pathways in the Response Network to Phenol Stress.
Alhoch B et al. G3 (Bethesda) 2019 Mar 07;9(3):639-650
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:20537132 - Global fitness profiling of fission yeast deletion strains by barcode sequencing.
Han TX et al. Genome Biol 2010;11(6):R60
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:34250083 - Barcode sequencing and a high-throughput assay for chronological lifespan uncover ageing-associated genes in fission yeast.
Romila CA et al. Microb Cell 2021 Jul 05;8(7):146-160
PMID:37787768 - Broad functional profiling of fission yeast proteins using phenomics and machine learning.
Rodríguez-López M et al. Elife 2023 Oct 03;12
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: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:38525852 - Recent Advances on Small-Molecule Inhibitors of Lipocalin-like Proteins.
Chen S et al. J Med Chem 2024 Apr 11;67(7):5144-5167
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
PMID:23738021 - A genome-wide screening of potential target genes to enhance the antifungal activity of micafungin in Schizosaccharomyces pombe.
Zhou X et al. PLoS One 2013;8(5):e65904
PMID:25373780 - A genomic Multiprocess survey of machineries that control and link cell shape, microtubule organization, and cell-cycle progression.
Graml V et al. Dev Cell 2014 Oct 27;31(2):227-239