Expression Profiles of Genes Encoded by the Supernumerary Chromosome Controlling AM-Toxin Biosynthesis and Pathogenicity in the Apple Pathotype of Alternaria alternata

YoshiakiHarimoto RiekoHatta MotoichiroKodama MikihiroYamamoto HiroshiOtani; TakashiTsuge

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Expression Profiles of Genes Encoded by the Supernumerary Chromosome Controlling AM-Toxin Biosynthesis and Pathogenicity in the Apple Pathotype of Alternaria alternata

机译：控制交替链霉菌苹果病原型AM毒素生物合成和致病性的超数量染色体编码基因的表达谱

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The apple pathotype of Alternaria alternata produces host-specific AM-toxin and causes Alternaria blotch of apple. Previously, we cloned two genes, AMT1 and AMT2, required for AM-toxin biosynthesis and found that these genes are encoded by small, supernumerary chromosomes of 10-fold) in AM-toxin–producing cultures. Two of the upregulated genes were newly identified to be involved in AM-toxin biosynthesis by the gene disruption experiments and were named AMT3 and AMT4. Thus, the genes upregulated in AM-toxin–producing cultures contain ideal candidates for novel AM-toxin biosynthetic genes.

机译：苹果交链孢菌的苹果型引起宿主特异的AM毒素并引起苹果交链菌斑。以前，我们克隆了AM毒素生物合成所需的两个基因AMT1和AMT2，发现这些基因由产生AM毒素的培养物中小的10倍的多余染色体编码。通过基因破坏实验，新发现了两个上调的基因与AM毒素的生物合成有关，分别命名为AMT3和AMT4。因此，在产生AM毒素的文化中上调的基因包含了新型AM毒素生物合成基因的理想候选基因。

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《Molecular Plant-Microbe Interactions》 |2007年第12期|共14页
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YoshiakiHarimoto RiekoHatta MotoichiroKodama MikihiroYamamoto HiroshiOtani; TakashiTsuge;
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1. Expression profiles of genes encoded by the supernumerary chromosome controlling AM-toxin biosynthesis and pathogenicity in the apple pathotype of Alternaria alternata [J] . Harimoto Y, Hatta R, Kodama M, Molecular Plant-Microbe Interactions . 2007,第12期

机译：交替链霉菌苹果病原型中控制AM毒素生物合成和致病性的多条染色体编码基因的表达谱
2. Expression Profiles of Genes Encoded by the Supernumerary Chromosome Controlling AM-Toxin Biosynthesis and Pathogenicity in the Apple Pathotype of Alternaria alternata [J] . YoshiakiHarimoto RiekoHatta MotoichiroKodama MikihiroYamamoto HiroshiOtani, TakashiTsuge Molecular Plant-Microbe Interactions . 2007,第12期

机译：控制交替链霉菌苹果病原型AM毒素生物合成和致病性的超数量染色体编码基因的表达谱
3. Cloning and Characterization of a Cyclic Peptide Synthetase Gene from Alternaria alternata Apple Pathotype Whose Product Is Involved in AM-Toxin Synthesis and Pathogenicity [J] . R. D. Johnson, L. Johnson, Y. Itoh, Molecular Plant-Microbe Interactions . 2000,第7期

机译：苹果黑粉病病原菌参与AM-毒素合成及致病性的环肽合成酶基因的克隆与鉴定
4. Identification of AKT3-2 and AKTR-2 genes required for AK-toxin biosynthesis in the Japanese pear pathotype of Alternaria alternata [C] . Aiko Tanaka, Rieko Nishikawa, Takashi Tsuge Asian conference on plant pathology . 2000

机译：鉴定Ak-Toxin生物合成所需的Akt3-2和Aktr-2基因在alterararia alternata的日本梨疫苗型中
5. Effect of Low Dose Irradiation on Expression of Genes Involved in Ethylene Biosynthesis of 'Granny Smith' Apples [D] . ?Nyakundi, Brian 2020

机译：低剂量辐照对乙烯史密斯苹果乙烯生物合成中含有的基因表达的影响
6. Transcriptomics Analysis of Apple Leaves in Response to Alternaria alternata Apple Pathotype Infection [O] . Longming Zhu, Weichen Ni, Shuai Liu, -1

机译：苹果叶片对交链孢霉苹果病原体感染的响应的转录组学分析
7. Expression Profiles of Genes Encoded by the Supernumerary Chromosome Controlling AM-Toxin Biosynthesis and Pathogenicity in the Apple Pathotype of Alternaria alternata [O] . Yoshiaki Harimoto, Rieko Hatta, Motoichiro Kodama, 2007

机译：替代染色体编码的基因的表达谱控制am-toxin生物合成和在altraria anderata的苹果植物型中的致病性

Expression Profiles of Genes Encoded by the Supernumerary Chromosome Controlling AM-Toxin Biosynthesis and Pathogenicity in the Apple Pathotype of Alternaria alternata

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