木质部难养菌亚种：木质部难养菌[订正]木质部难养菌[订正]新亚种，木质部难养菌多重亚种新亚种，以及木质部难养菌少脉亚种新亚种

Xylella fastidiosa subspecies: X. fastidiosa subsp. [correction] fastidiosa [correction] subsp. nov., X. fastidiosa subsp. multiplex subsp. nov., and X. fastidiosa subsp. pauca subsp. nov.

作者信息

Schaad Norman W, Postnikova Elena, Lacy George, Fatmi M'Barek, Chang Chung-Jan

机构信息

ARS-USDA, Foreign Disease-Weed Science Research Unit, Ft. Detrick, MD 21702, USA.

出版信息

Syst Appl Microbiol. 2004 May;27(3):290-300. doi: 10.1078/0723-2020-00263.

DOI:10.1078/0723-2020-00263

PMID:15214634

Abstract

Xylella fastidiosa, a fastidious bacterium causing disease in over 100 plant species, is classified as a single species, although genetic studies support multiple taxons. To determine the taxonomic relatedness among strains of X. fastidiosa, we conducted DNA-DNA relatedness assays and sequenced the 16S-23S intergenic spacer (ITS) region using 26 strains from 10 hosts. Under stringent conditions (Tm -15 degrees C), the DNA relatedness for most X. fastidiosa strains was *70%. However, at high stringency (Tm -8 degrees C), three distinct genotypes (A, B, and C) were revealed. Taxon A included strains from cultivated grape, alfalfa, almond (two), and maple, interrelated by 85% (mean); taxon B included strains from peach, elm, plum, pigeon grape, sycamore, and almond (one), interrelated by 84%; and taxon C included only strains from citrus, interrelated by 87%. The mean reciprocal relatedness between taxons A and B, A and C, and B and C, were 58, 41, and 45%, respectively. ITS results also indicated the same grouping; taxons A and B, A and C, and B and C had identities of 98.7, 97.9, and 99.2%, respectively. Previous and present phenotypic data supports the molecular data. Taxon A strains grow faster on Pierce's disease agar medium whereas B and C strains grow more slowly. Taxon B and C strains are susceptible to penicillin and resistant to carbenicillin whereas A strains are opposite. Each taxon can be differentiated serologically as well as by structural proteins. We propose taxons A, B, and C be named X. fastidiosa subsp. fastidiosa [correction] subsp. nov, subsp. multiplex, subsp. nov., and subsp. pauca, subsp. nov., respectively. The type strains of the subspecies are subsp. fastidiosa [correction] ICPB 50025 (= ATTC 35879T and ICMP 15197), subsp. multiplex ICPB 50039 (= ATTC 35871 and ICMP 15199), and subsp. pauca ICPB 50031 (= ICMP 15198).

摘要

木质部难养菌（Xylella fastidiosa）是一种能使100多种植物致病的苛求菌，尽管基因研究支持多个分类单元，但它仍被归为单一物种。为了确定木质部难养菌各菌株之间的分类相关性，我们使用来自10种寄主的26个菌株进行了DNA-DNA相关性分析，并对16S-23S基因间隔区（ITS）进行了测序。在严格条件下（熔解温度-15℃），大多数木质部难养菌菌株的DNA相关性*为70%。然而，在高严格度条件下（熔解温度-8℃），发现了三个不同的基因型（A、B和C）。分类单元A包括来自栽培葡萄、苜蓿、杏仁（两个）和枫树的菌株，它们之间的平均相关性为85%；分类单元B包括来自桃子、榆树、李子、鸽葡萄、悬铃木和杏仁（一个）的菌株，相关性为84%；分类单元C仅包括来自柑橘的菌株，相关性为87%。分类单元A与B、A与C、B与C之间的平均相互相关性分别为58%、41%和45%。ITS结果也表明了相同的分组情况；分类单元A与B、A与C、B与C的一致性分别为98.7%、97.9%和99.2%。以往和当前的表型数据支持分子数据。分类单元A的菌株在皮尔氏病琼脂培养基上生长较快，而B和C的菌株生长较慢。分类单元B和C的菌株对青霉素敏感，对羧苄青霉素耐药，而A的菌株则相反。每个分类单元在血清学上以及通过结构蛋白都可以区分。我们建议将分类单元A、B和C分别命名为木质部难养菌快生亚种（X. fastidiosa subsp. fastidiosa [勘误] subsp. nov）、多型亚种（subsp. multiplex, subsp. nov.）和少型亚种（subsp. pauca, subsp. nov.）。这些亚种的模式菌株分别是快生亚种[勘误]ICPB 50025（=ATTC 35879T和ICMP 15197）、多型亚种ICPB 50039（=ATTC 35871和ICMP 15199）和少型亚种ICPB 50031（=ICMP 15198）。

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木质部难养菌亚种：木质部难养菌[订正]木质部难养菌[订正]新亚种，木质部难养菌多重亚种新亚种，以及木质部难养菌少脉亚种新亚种

Xylella fastidiosa subspecies: X. fastidiosa subsp. [correction] fastidiosa [correction] subsp. nov., X. fastidiosa subsp. multiplex subsp. nov., and X. fastidiosa subsp. pauca subsp. nov.

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