AspGD Curated Papers

Author(s)	Citation
Takeshita N, Evangelinos M, Zhou L, Serizawa T, Somera-Fajardo RA, Lu L, Takaya N, Nienhaus GU, Fischer R	*Takeshita N, et al.* (2017)** Pulses of Ca2+ coordinate actin assembly and exocytosis for stepwise cell extension. Proc Natl Acad Sci U S A 114(22):5701-5706
Itoh E, Odakura R, Oinuma KI, Shimizu M, Masuo S, Takaya N	*Itoh E, et al.* (2017)** Sirtuin E is a fungal global transcriptional regulator that determines the transition from the primary growth to the stationary phase. J Biol Chem 292(26):11043-11054
Itoh E, Shigemoto R, Oinuma KI, Shimizu M, Masuo S, Takaya N	*Itoh E, et al.* (2017)** Sirtuin A regulates secondary metabolite production by Aspergillus nidulans. J Gen Appl Microbiol
Zhou S, Narukami T, Masuo S, Shimizu M, Fujita T, Doi Y, Kamimura Y, Takaya N	*Zhou S, et al.* (2013)** NO-inducible nitrosothionein mediates NO removal in tandem with thioredoxin. Nat Chem Biol 9(10):657-63
Shimizu M, Takaya N	Shimizu M and Takaya N (2013) Nudix hydrolase controls nucleotides and glycolytic mechanisms in hypoxic Aspergillus nidulans. Biosci Biotechnol Biochem 77(9):1888-93
Zhou S, Narukami T, Nameki M, Ozawa T, Kamimura Y, Hoshino T, Takaya N	*Zhou S, et al.* (2012)** Heme-biosynthetic porphobilinogen deaminase protects Aspergillus nidulans from nitrosative stress. Appl Environ Microbiol 78(1):103-9
Terabayashi Y, Shimizu M, Kitazume T, Masuo S, Fujii T, Takaya N	*Terabayashi Y, et al.* (2012)** Conserved and specific responses to hypoxia in Aspergillus oryzae and Aspergillus nidulans determined by comparative transcriptomics. Appl Microbiol Biotechnol 93(1):305-17
Shimizu M, Masuo S, Fujita T, Doi Y, Kamimura Y, Takaya N	*Shimizu M, et al.* (2012)** Hydrolase controls cellular NAD, sirtuin, and secondary metabolites. Mol Cell Biol 32(18):3743-55
Sato I, Shimatani K, Fujita K, Abe T, Shimizu M, Fujii T, Hoshino T, Takaya N	*Sato I, et al.* (2011)** Glutathione reductase/glutathione is responsible for cytotoxic elemental sulfur tolerance via polysulfide shuttle in fungi. J Biol Chem 286(23):20283-91
Shimizu M, Fujii T, Masuo S, Takaya N	*Shimizu M, et al.* (2010)** Mechanism of de novo branched-chain amino acid synthesis as an alternative electron sink in hypoxic Aspergillus nidulans cells. Appl Environ Microbiol 76(5):1507-15
Masuo S, Terabayashi Y, Shimizu M, Fujii T, Kitazume T, Takaya N	*Masuo S, et al.* (2010)** Global gene expression analysis of Aspergillus nidulans reveals metabolic shift and transcription suppression under hypoxia. Mol Genet Genomics 284(6):415-24
Takaya N	Takaya N (2009) Response to hypoxia, reduction of electron acceptors, and subsequent survival by filamentous fungi. Biosci Biotechnol Biochem 73(1):1-8
Shimizu M, Fujii T, Masuo S, Fujita K, Takaya N	*Shimizu M, et al.* (2009)** Proteomic analysis of Aspergillus nidulans cultured under hypoxic conditions. Proteomics 9(1):7-19
Sato I, Shimizu M, Hoshino T, Takaya N	*Sato I, et al.* (2009)** The glutathione system of Aspergillus nidulans involves a fungus-specific glutathione S-transferase. J Biol Chem 284(12):8042-53
Yamazaki H, Yamazaki D, Takaya N, Takagi M, Ohta A, Horiuchi H	*Yamazaki H, et al.* (2007)** A chitinase gene, chiB, involved in the autolytic process of Aspergillus nidulans. Curr Genet 51(2):89-98
Takasaki K, Shoun H, Nakamura A, Hoshino T, Takaya N	*Takasaki K, et al.* (2004)** Unusual transcription regulation of the niaD gene under anaerobic conditions supporting fungal ammonia fermentation. Biosci Biotechnol Biochem 68(4):978-80
Takasaki K, Shoun H, Yamaguchi M, Takeo K, Nakamura A, Hoshino T, Takaya N	*Takasaki K, et al.* (2004)** Fungal ammonia fermentation, a novel metabolic mechanism that couples the dissimilatory and assimilatory pathways of both nitrate and ethanol. Role of acetyl CoA synthetase in anaerobic ATP synthesis. J Biol Chem 279(13):12414-20
Kaya M, Matsumura K, Higashida K, Hata Y, Kawato A, Abe Y, Akita O, Takaya N, Shoun H	*Kaya M, et al.* (2004)** Cloning and enhanced expression of the cytochrome P450nor gene (nicA; CYP55A5) encoding nitric oxide reductase from Aspergillus oryzae. Biosci Biotechnol Biochem 68(10):2040-9
Takaya N, Uchimura H, Lai Y, Shoun H	*Takaya N, et al.* (2002)** Transcriptional control of nitric oxide reductase gene (CYP55) in the fungal denitrifier Fusarium oxysporum. Biosci Biotechnol Biochem 66(5):1039-45
Takaya N, Yamazaki D, Horiuchi H, Ohta A, Takagi M	*Takaya N, et al.* (1998)** Cloning and characterization of a chitinase-encoding gene (chiA) from Aspergillus nidulans, disruption of which decreases germination frequency and hyphal growth. Biosci Biotechnol Biochem 62(1):60-5
Yanai K, Kojima N, Takaya N, Horiuchi H, Ohta A, Takagi M	*Yanai K, et al.* (1994)** Isolation and characterization of two chitin synthase genes from Aspergillus nidulans. Biosci Biotechnol Biochem 58(10):1828-35

Author(s)

Citation

Takeshita N, Evangelinos M, Zhou L, Serizawa T, Somera-Fajardo RA, Lu L, Takaya N, Nienhaus GU, Fischer R

Takeshita N, et al. (2017) Pulses of Ca2+ coordinate actin assembly and exocytosis for stepwise cell extension. Proc Natl Acad Sci U S A 114(22):5701-5706

Itoh E, Odakura R, Oinuma KI, Shimizu M, Masuo S, Takaya N

Itoh E, et al. (2017) Sirtuin E is a fungal global transcriptional regulator that determines the transition from the primary growth to the stationary phase. J Biol Chem 292(26):11043-11054

Itoh E, Shigemoto R, Oinuma KI, Shimizu M, Masuo S, Takaya N

Itoh E, et al. (2017) Sirtuin A regulates secondary metabolite production by Aspergillus nidulans. J Gen Appl Microbiol

Zhou S, Narukami T, Masuo S, Shimizu M, Fujita T, Doi Y, Kamimura Y, Takaya N

Zhou S, et al. (2013) NO-inducible nitrosothionein mediates NO removal in tandem with thioredoxin. Nat Chem Biol 9(10):657-63

Shimizu M, Takaya N

Shimizu M and Takaya N (2013) Nudix hydrolase controls nucleotides and glycolytic mechanisms in hypoxic Aspergillus nidulans. Biosci Biotechnol Biochem 77(9):1888-93

Zhou S, Narukami T, Nameki M, Ozawa T, Kamimura Y, Hoshino T, Takaya N

Zhou S, et al. (2012) Heme-biosynthetic porphobilinogen deaminase protects Aspergillus nidulans from nitrosative stress. Appl Environ Microbiol 78(1):103-9

Terabayashi Y, Shimizu M, Kitazume T, Masuo S, Fujii T, Takaya N

Terabayashi Y, et al. (2012) Conserved and specific responses to hypoxia in Aspergillus oryzae and Aspergillus nidulans determined by comparative transcriptomics. Appl Microbiol Biotechnol 93(1):305-17

Shimizu M, Masuo S, Fujita T, Doi Y, Kamimura Y, Takaya N

Shimizu M, et al. (2012) Hydrolase controls cellular NAD, sirtuin, and secondary metabolites. Mol Cell Biol 32(18):3743-55

Sato I, Shimatani K, Fujita K, Abe T, Shimizu M, Fujii T, Hoshino T, Takaya N

Sato I, et al. (2011) Glutathione reductase/glutathione is responsible for cytotoxic elemental sulfur tolerance via polysulfide shuttle in fungi. J Biol Chem 286(23):20283-91

Shimizu M, Fujii T, Masuo S, Takaya N

Shimizu M, et al. (2010) Mechanism of de novo branched-chain amino acid synthesis as an alternative electron sink in hypoxic Aspergillus nidulans cells. Appl Environ Microbiol 76(5):1507-15

Masuo S, Terabayashi Y, Shimizu M, Fujii T, Kitazume T, Takaya N

Masuo S, et al. (2010) Global gene expression analysis of Aspergillus nidulans reveals metabolic shift and transcription suppression under hypoxia. Mol Genet Genomics 284(6):415-24

Takaya N

Takaya N (2009) Response to hypoxia, reduction of electron acceptors, and subsequent survival by filamentous fungi. Biosci Biotechnol Biochem 73(1):1-8

Shimizu M, Fujii T, Masuo S, Fujita K, Takaya N

Shimizu M, et al. (2009) Proteomic analysis of Aspergillus nidulans cultured under hypoxic conditions. Proteomics 9(1):7-19

Sato I, Shimizu M, Hoshino T, Takaya N

Sato I, et al. (2009) The glutathione system of Aspergillus nidulans involves a fungus-specific glutathione S-transferase. J Biol Chem 284(12):8042-53

Yamazaki H, Yamazaki D, Takaya N, Takagi M, Ohta A, Horiuchi H

Yamazaki H, et al. (2007) A chitinase gene, chiB, involved in the autolytic process of Aspergillus nidulans. Curr Genet 51(2):89-98

Takasaki K, Shoun H, Nakamura A, Hoshino T, Takaya N

Takasaki K, et al. (2004) Unusual transcription regulation of the niaD gene under anaerobic conditions supporting fungal ammonia fermentation. Biosci Biotechnol Biochem 68(4):978-80

Takasaki K, Shoun H, Yamaguchi M, Takeo K, Nakamura A, Hoshino T, Takaya N

Takasaki K, et al. (2004) Fungal ammonia fermentation, a novel metabolic mechanism that couples the dissimilatory and assimilatory pathways of both nitrate and ethanol. Role of acetyl CoA synthetase in anaerobic ATP synthesis. J Biol Chem 279(13):12414-20

Kaya M, Matsumura K, Higashida K, Hata Y, Kawato A, Abe Y, Akita O, Takaya N, Shoun H

Kaya M, et al. (2004) Cloning and enhanced expression of the cytochrome P450nor gene (nicA; CYP55A5) encoding nitric oxide reductase from Aspergillus oryzae. Biosci Biotechnol Biochem 68(10):2040-9

Takaya N, Uchimura H, Lai Y, Shoun H

Takaya N, et al. (2002) Transcriptional control of nitric oxide reductase gene (CYP55) in the fungal denitrifier Fusarium oxysporum. Biosci Biotechnol Biochem 66(5):1039-45

Takaya N, Yamazaki D, Horiuchi H, Ohta A, Takagi M

Takaya N, et al. (1998) Cloning and characterization of a chitinase-encoding gene (chiA) from Aspergillus nidulans, disruption of which decreases germination frequency and hyphal growth. Biosci Biotechnol Biochem 62(1):60-5

Yanai K, Kojima N, Takaya N, Horiuchi H, Ohta A, Takagi M

Yanai K, et al. (1994) Isolation and characterization of two chitin synthase genes from Aspergillus nidulans. Biosci Biotechnol Biochem 58(10):1828-35

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