Enrichment of bermudagrass genes associated with tolerance to the spring dead spot fungus Ophiosphaerella herpotricha.

Zhang Y; Guenzi A C; Anderson M P; Taliaferro C M; Gonzales R A

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Enrichment of bermudagrass genes associated with tolerance to the spring dead spot fungus Ophiosphaerella herpotricha.

机译：与对春季死斑真菌Ophiosphaerella herpotricha的耐受性相关的百慕大草基因的富集。

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Spring dead spot (SDS) is a serious root-rot fungal disease of turf-type bermudagrass (Cynodon dactylon L.), caused by Ophiosphaerella herpotricha. This research was conducted to evaluate a technology designed to identify bermudagrass genes associated with the plant and fungal interaction and to enrich for putative SDS tolerance gene transcripts. Two sets of suppression subtractive hybridizations (SSH) were conducted: (1) between fungal infected tolerant cultivar (Yukon) and susceptible cultivar (Jackpot) and (2) between fungal infected and non-infected Jackpot. A total of 323 unigenes were identified. The differential expression of the SSH enriched clones was confirmed by arraying and probing with RNA from fungal tolerant and susceptible plants. Higher expression of genes involved in defense response and signal transduction may associate with improved tolerance to fungal infection..

机译：春季死斑（SDS）是草皮类百慕大（Cynodon dactylon L.）引起的一种严重的根腐真菌病，由蛇形眼线虫（Ophiosphaerella herpotricha）引起。进行这项研究以评估一种旨在鉴定与植物和真菌相互作用相关的百慕大草基因并丰富假定的SDS耐受基因转录本的技术。进行了两组抑制消减杂交（SSH）：( 1）在真菌感染的耐性品种（Yukon）和易感品种（Jackpot）之间，以及（2）在真菌感染的和未感染的Jackpot之间。总共鉴定出323个单基因。通过对来自真菌耐受和易感植物的RNA进行排列和探测，证实了富含SSH的克隆的差异表达。参与防御反应和信号转导的基因的更高表达可能与对真菌感染的耐受性提高有关。

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《Physiological and Molecular Plant Pathology》 |2006年第6期|共14页
作者
Zhang Y; Guenzi A C; Anderson M P; Taliaferro C M; Gonzales R A;
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正文语种 eng
中图分类植物病理学;
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disease resistance; fungal diseases; genes; genetic resistance; lawns and turf; plant diseases; plant pathogenic fungi; plant pathogens;

机译：抗病性;真菌病;基因;遗传抗性;草坪和草皮;植物病害;植物病原真菌;植物病原体;

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1. Enrichment of bermudagrass genes associated with tolerance to the spring dead spot fungus Ophiosphaerella herpotricha. [J] . Zhang Y, Guenzi A C, Anderson M P, Physiological and Molecular Plant Pathology . 2006,第4a6期

机译：与对春季死斑真菌Ophiosphaerella herpotricha的耐受性相关的百慕大草基因的富集。
2. Multiplex End-Point PCR for the Detection of Three Species of Ophiosphaerella Causing Spring Dead Spot of Bermudagrass [J] . Plant Disease . 2019,第8期

机译：用于检测三种Ophiosphaerella的多重终点PCR导致百慕大的春天死点
3. The genomes of Ophiosphaerella spp. reveal new insights into the bermudagrass spring dead spot pathosystem [J] . Grachet N. Graf, Couger M., Young C. A., Phytopathology . 2018,第10期

机译：Ophiosphaerella SPP的基因组。揭示了百慕大春天死点冒险系统的新见解
4. ASSESSMENT OF THE IMPACT OF NITROGEN SOURCE AND PH ON THE SPRING DEAD SPOT PATHOGENS, OPHIOSPHAERELLA HERPOTRICHA AND O.KORRAE WITH AN IN VITRO MYCELIAL GROWTH ASSAY [C] . Derek J. Cottrill, Gerald L. Miller International Turfgrass Society research journal . 2013

机译：体外培养法评估氮源和酸碱度对春季死斑病原菌，嗜盐菌和拟南芥的影响
5. Geographic distribution and genetic diversity of three Ophiosphaerella species that cause spring dead spot of bermudagrass. [D] . Wetzel, Henry Charles, III. 1999

机译：导致百慕大草春季死斑的三种蛇眼藻物种的地理分布和遗传多样性。
6. A MAPK gene from Dead Sea fungus confers stress tolerance to lithium salt and freezing–thawing: Prospects for saline agriculture [O] . Yan Jin, Song Weining, Eviatar Nevo 2005

机译：死海真菌的MAPK基因赋予了对锂盐和冻融的胁迫耐受性：咸水农业的前景
7. Genetic Diversity and Aggressiveness of Ophiosphaerella korrae, a Cause of Spring Dead Spot of Bermudagrass [O] . F. B. Iriarte, H. C. Wetzel, J. D. Fry, 2004

机译：Ophiosphaerella Korrae的遗传多样性和侵袭性，百慕大的春天死区的原因

Enrichment of bermudagrass genes associated with tolerance to the spring dead spot fungus Ophiosphaerella herpotricha.

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