Comparison and characterization of α-amylase inducers in Aspergillus nidulans based on nuclear localization of AmyR

Murakoshi, Yuriko; Makita, Tomohiro; Kato, Masashi; Kobayashi, Tetsuo

doi:10.1007/s00253-012-3874-x

Cited by 33 publications

(21 citation statements)

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“…In A. nidulans, the transglycosylation activity of two α-glucosidases (AgdA and AgdB) with a signal peptide is involved in the conversion from maltose to isomaltose for α-amylase gene induction, although other α-glucosidase(s) with isomaltose-forming activity may exist (Kato et al 2002a, b). The nuclear localization of A. nidulans GFP-AmyR after maltose addition was inhibited by the addition of a α-glucosidase inhibitor, castanospermine (Murakoshi et al 2012). However, in A. oryzae, induction of α-amylase gene expression after maltose addition was not inhibited by the addition of α-glucosidase inhibitors, castanospermine and 1-deoxynojirimycin (data not shown).…”

Section: Discussionmentioning

confidence: 44%

“…2c). These results suggested that inducing sugars, such as maltose and glucose, for amylolytic gene expression can trigger the nuclear localization of AmyR in A. oryzae, as observed for AmyR in A. nidulans (Makita et al 2009;Murakoshi et al 2012). On the contrary, GFP fluorescence was observed in the nucleus when the transformant expressing GFP-MalR was cultured in the liquid MM using casamino acids as the carbon source (Fig.…”

Section: Subcellular Localization Of Gfp-amyr and Gfp-malrmentioning

confidence: 74%

“…Although the expression of amylolytic genes is strongly repressed by a C 2 H 2 -type transcription factor, CreA, under glucose-containing condition, the nuclear localization of GFP-AmyR is also triggered by glucose. However, glucose and maltose require higher concentration and longer time, when compared with isomaltose, to induce nuclear localization of GFP-AmyR (Murakoshi et al 2012). These observations indicate that isomaltose is the strongest inducer for the activation of A. nidulans AmyR.…”

Section: Introductionmentioning

confidence: 78%

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Distinct mechanism of activation of two transcription factors, AmyR and MalR, involved in amylolytic enzyme production in Aspergillus oryzae

Suzuki

Tanaka

Konno

et al. 2014

Appl Microbiol Biotechnol

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The production of amylolytic enzymes in Aspergillus oryzae is induced in the presence of starch or maltose, and two Zn2Cys6-type transcription factors, AmyR and MalR, are involved in this regulation. AmyR directly regulates the expression of amylase genes, and MalR controls the expression of maltose-utilizing (MAL) cluster genes. Deletion of malR gene resulted in poor growth on starch medium and reduction in α-amylase production level. To elucidate the activation mechanisms of these two transcription factors in amylase production, the expression profiles of amylases and MAL cluster genes under carbon catabolite derepression condition and subcellular localization of these transcription factors fused with a green fluorescent protein (GFP) were examined. Glucose, maltose, and isomaltose induced the expression of amylase genes, and GFP-AmyR was translocated from the cytoplasm to nucleus after the addition of these sugars. Rapid induction of amylase gene expression and nuclear localization of GFP-AmyR by isomaltose suggested that this sugar was the strongest inducer for AmyR activation. In contrast, GFP-MalR was constitutively localized in the nucleus and the expression of MAL cluster genes was induced by maltose, but not by glucose or isomaltose. In the presence of maltose, the expression of amylase genes was preceded by MAL cluster gene expression. Furthermore, deletion of the malR gene resulted in a significant decrease in the α-amylase activity induced by maltose, but had apparently no effect on the expression of α-amylase genes in the presence of isomaltose. These results suggested that activation of AmyR and MalR is regulated in a different manner, and the preceding activation of MalR is essential for the utilization of maltose as an inducer for AmyR activation.

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Section: Discussionmentioning

confidence: 44%

Section: Subcellular Localization Of Gfp-amyr and Gfp-malrmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 78%

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Distinct mechanism of activation of two transcription factors, AmyR and MalR, involved in amylolytic enzyme production in Aspergillus oryzae

Suzuki

Tanaka

Konno

et al. 2014

Appl Microbiol Biotechnol

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“…A direct effect has been reported for xlnR/xyr1 in A. nidulans [162], A. niger [59], T. reesei [106, 155, 163] and T. koningii (208), with ace2 and ace1 in T. reesei [69], and with amyR in A. nidulans [136, 165] and N. crassa [159]. …”

Section: Transcription Factors Directly Involved In Plant Biomass Degmentioning

confidence: 99%

Regulators of plant biomass degradation in ascomycetous fungi

Benocci

Pontes

Zhou

et al. 2017

Biotechnol Biofuels

179

158

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Fungi play a major role in the global carbon cycle because of their ability to utilize plant biomass (polysaccharides, proteins, and lignin) as carbon source. Due to the complexity and heterogenic composition of plant biomass, fungi need to produce a broad range of degrading enzymes, matching the composition of (part of) the prevalent substrate. This process is dependent on a network of regulators that not only control the extracellular enzymes that degrade the biomass, but also the metabolic pathways needed to metabolize the resulting monomers. This review will summarize the current knowledge on regulation of plant biomass utilization in fungi and compare the differences between fungal species, focusing in particular on the presence or absence of the regulators involved in this process.Electronic supplementary materialThe online version of this article (doi:10.1186/s13068-017-0841-x) contains supplementary material, which is available to authorized users.

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“…CT-rich stretch was shown to be involved in correct initiation of transcription, and a major transcription start point would exist near the CTstretch (Adams andTimberlake, 1990, Punt et al, 1990). Furthermore, five CreA consensus binding sites were present (-548 to -543, -299 to -294, -258 to -253, -207 to -202, and -77 to -72) and one AmyR binding site was present (-101 to -114 (Tani et al, 2001b, Murakoshi et al, 2012. On the other hand, a typical polyadenylation signal, AATAAA, was not found within the 3'-flanking region we determined.…”

Section: Effect Of Disruption Of Asamyr Gene On Amylase Productionmentioning

confidence: 74%

Molecular Analysis of AsamyR Gene Encoding Transcriptional Factor for Amylolytic Gene from Shoyu Koji Mold, Aspergillus sojae KBN1340

Yoshino-Yasuda¹,

Fujino²,

Matsui³

et al. 2013

FSTR

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The gene, designated AsamyR, encoding a transcriptional activator involved in amylolytic gene expression was isolated from a shoyu koji mold, Aspergillus sojae KBN1340, and characterized. The structural gene comprised 1,951 bp with 2 introns. AsAmyR consisted of 595 amino acid residues possessing a high degree of sequence identity with other Aspergillus AmyRs. The AsamyR gene disruptant showed significantly restricted growth on starch agar plates and produced no detectable α-amylase production in SP medium. The multicopy AsamyR strain exhibited approximately two-fold higher amylase activity when compared to that of the control strain, but the increased rate of the amylase activity was not as high as the copy number of the integrated AsamyR gene.

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Comparison and characterization of α-amylase inducers in Aspergillus nidulans based on nuclear localization of AmyR

Cited by 33 publications

References 20 publications

Distinct mechanism of activation of two transcription factors, AmyR and MalR, involved in amylolytic enzyme production in Aspergillus oryzae

Distinct mechanism of activation of two transcription factors, AmyR and MalR, involved in amylolytic enzyme production in Aspergillus oryzae

Regulators of plant biomass degradation in ascomycetous fungi

Molecular Analysis of AsamyR Gene Encoding Transcriptional Factor for Amylolytic Gene from Shoyu Koji Mold, Aspergillus sojae KBN1340

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