FOG01831
EOG86WWQH
sce:absent
Genes: 32
EOG86WWQH
sce:absent
Genes: 32
AspGD Description
Putative chitin synthase
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| Phobius transmembrane predictions
32 genes with posterior transmembrane prediction > 50% |
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FOG01832
EOG86WWQH
sce:CHS2
Genes: 1
EOG86WWQH
sce:CHS2
Genes: 1
SGD Description
Chitin synthase II; catalyzes transfer of N-acetylglucosamine (GlcNAc) to chitin upon activation of zymogenic form; required for chitin synthesis in the primary septum during cytokinesis; localization regulated by Cdk1p during mitosis; phosphorylation by Dbf2p kinase regulates its dynamics and chitin synthesis during cytokinesis
References
Silverman SJ, et al. (1989 Nov-Dec). Similar and different domains of chitin synthases 1 and 2 of S. cerevisiae: two isozymes with distinct functions.
Nagahashi S, et al. (1995 Jun 9). Characterization of chitin synthase 2 of Saccharomyces cerevisiae. Implication of two highly conserved domains as possible catalytic sites.
Kim H, et al. (2006 Jul 25). A global topology map of the Saccharomyces cerevisiae membrane proteome.
Chi A, et al. (2007 Feb 13). Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry.
| Mitochondrial localization predictions | ||
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| Phobius transmembrane predictions
1 genes with posterior transmembrane prediction > 50% |
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FOG01833
EOG86WWQH
sce:absent
Genes: 1
EOG86WWQH
sce:absent
Genes: 1
PomBase Description
chitin synthase homolog Chs2
| Mitochondrial localization predictions | ||
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| Phobius transmembrane predictions
1 genes with posterior transmembrane prediction > 50% |
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FOG01834
EOG86WWQH
sce:absent
Genes: 10
EOG86WWQH
sce:absent
Genes: 10
AspGD Description
Putative chitin synthase|Putative chitin synthase, class III; induced by caspofungin|Putative chitin synthase
References
Yanai K, et al. (1994 Oct). Isolation and characterization of two chitin synthase genes from Aspergillus nidulans.
Borgia PT, et al. (1996 Sep). The chsB gene of Aspergillus nidulans is necessary for normal hyphal growth and development.
Tatsuno K, et al. (1997 Apr 15). Properties of yeast expressed Aspergillus nidulans chitin synthase B which is essential for hyphal growth.
Sreenivasaprasad S, et al. (2000 Aug 1). Cloning and characterisation of a chitin synthase gene cDNA from the cultivated mushroom Agaricus bisporus and its expression during morphogenesis.
Dessen P, et al. (2000 Feb 22). The PAUSE software for analysis of translational control over protein targeting: application to E. nidulans membrane proteins.
Müller C, et al. (2002 Dec). Altering the expression of two chitin synthase genes differentially affects the growth and morphology of Aspergillus oryzae.
Ichinomiya M, et al. (2002 May). Repression of chsB expression reveals the functional importance of class IV chitin synthase gene chsD in hyphal growth and conidiation of Aspergillus nidulans.
Ichinomiya M, et al. (2002 Oct). Different functions of the class I and class II chitin synthase genes, chsC and chsA, are revealed by repression of chsB expression in Aspergillus nidulans.
Sims AH, et al. (2004 Feb). Use of expressed sequence tag analysis and cDNA microarrays of the filamentous fungus Aspergillus nidulans.
Lee JI, et al. (2004 Jun). Differential expression of the chitin synthase genes of Aspergillus nidulans, chsA, chsB, and chsC, in response to developmental status and environmental factors.
Fujioka T, et al. (2007 Aug). MpkA-Dependent and -independent cell wall integrity signaling in Aspergillus nidulans.
Li S, et al. (2007 May). basA regulates cell wall organization and asexual/sexual sporulation ratio in Aspergillus nidulans.
Spielvogel A, et al. (2008 Sep 15). Two zinc finger transcription factors, CrzA and SltA, are involved in cation homoeostasis and detoxification in Aspergillus nidulans.
Horiuchi H, et al. (2009). Functional diversity of chitin synthases of Aspergillus nidulans in hyphal growth, conidiophore development and septum formation.
Fukuda K, et al. (2009 Jul). Class III chitin synthase ChsB of Aspergillus nidulans localizes at the sites of polarized cell wall synthesis and is required for conidial development.
de Groot PW, et al. (2009 Mar). Comprehensive genomic analysis of cell wall genes in Aspergillus nidulans.
Li S, et al. (2009 Mar-Apr). Induction of cell wall thickening by the antifungal compound dihydromaltophilin disrupts fungal growth and is mediated by sphingolipid biosynthesis.
Yoshimi A, et al. (2013). Functional analysis of the α-1,3-glucan synthase genes agsA and agsB in Aspergillus nidulans: agsB is the major α-1,3-glucan synthase in this fungus.
Szilágyi M, et al. (2013 Jan). Transcriptome changes initiated by carbon starvation in Aspergillus nidulans.
Takeshita N, et al. (2015). Transportation of Aspergillus nidulans Class III and V Chitin Synthases to the Hyphal Tips Depends on Conventional Kinesin.
| Mitochondrial localization predictions | ||
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| Phobius transmembrane predictions
10 genes with posterior transmembrane prediction > 50% |
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FOG01835
EOG86WWQH
sce:CHS1
Genes: 52
EOG86WWQH
sce:CHS1
Genes: 52
SGD Description
Chitin synthase I; requires activation from zymogenic form in order to catalyze the transfer of N-acetylglucosamine (GlcNAc) to chitin; required for repairing the chitin septum during cytokinesis; transcription activated by mating factor
PomBase Description
chitin synthase I
AspGD Description
Chitin synthase class II
References
Bulawa CE, et al. (1986 Jul 18). The S. cerevisiae structural gene for chitin synthase is not required for chitin synthesis in vivo.
Motoyama T, et al. (1994 Dec). Isolation of a chitin synthase gene (chsC) of Aspergillus nidulans.
Motoyama T, et al. (1996 Jun 24). The Aspergillus nidulans genes chsA and chsD encode chitin synthases which have redundant functions in conidia formation.
Hintz WE, et al. (1999 Sep 3). Sequence analysis of the chitin synthase A gene of the Dutch elm pathogen Ophiostoma novo-ulmi indicates a close association with the human pathogen Sporothrix schenckii.
Fujiwara M, et al. (2000 Mar). Evidence that the Aspergillus nidulans class I and class II chitin synthase genes, chsC and chsA, share critical roles in hyphal wall integrity and conidiophore development.
Wang Z, et al. (2001 Dec). WdChs2p, a class I chitin synthase, together with WdChs3p (class III) contributes to virulence in Wangiella (Exophiala) dermatitidis.
Müller C, et al. (2002 Dec). Altering the expression of two chitin synthase genes differentially affects the growth and morphology of Aspergillus oryzae.
Ichinomiya M, et al. (2002 Oct). Different functions of the class I and class II chitin synthase genes, chsC and chsA, are revealed by repression of chsB expression in Aspergillus nidulans.
Park BC, et al. (2003 Mar 28). Activation of chsC transcription by AbaA during asexual development of Aspergillus nidulans.
Lee JI, et al. (2004 Jun). Differential expression of the chitin synthase genes of Aspergillus nidulans, chsA, chsB, and chsC, in response to developmental status and environmental factors.
Yamada E, et al. (2005 Jan). The class V chitin synthase gene csmA is crucial for the growth of the chsA chsC double mutant in Aspergillus nidulans.
Ichinomiya M, et al. (2005 Jun). Class I and class II chitin synthases are involved in septum formation in the filamentous fungus Aspergillus nidulans.
Ichinomiya M, et al. (2005 Sep). Expression of asexual developmental regulator gene abaA is affected in the double mutants of classes I and II chitin synthase genes, chsC and chsA, of Aspergillus nidulans.
Fujioka T, et al. (2007 Aug). MpkA-Dependent and -independent cell wall integrity signaling in Aspergillus nidulans.
Chi A, et al. (2007 Feb 13). Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry.
Horiuchi H, et al. (2009). Functional diversity of chitin synthases of Aspergillus nidulans in hyphal growth, conidiophore development and septum formation.
de Groot PW, et al. (2009 Mar). Comprehensive genomic analysis of cell wall genes in Aspergillus nidulans.
Li S, et al. (2009 Mar-Apr). Induction of cell wall thickening by the antifungal compound dihydromaltophilin disrupts fungal growth and is mediated by sphingolipid biosynthesis.
Yoshimi A, et al. (2013). Functional analysis of the α-1,3-glucan synthase genes agsA and agsB in Aspergillus nidulans: agsB is the major α-1,3-glucan synthase in this fungus.
Krijgsheld P, et al. (2013 Mar 15). Development in Aspergillus.
| Mitochondrial localization predictions | ||
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| Predotar | TargetP | MitoProt |
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| Raw data
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| Phobius transmembrane predictions
49 genes with posterior transmembrane prediction > 50% |
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