新型隐球菌荚膜突变体的遗传与表型特征分析
Genetic and phenotypic characterization of capsule mutants of Cryptococcus neoformans.
作者信息
Jacobson E S, Ayers D J, Harrell A C, Nicholas C C
出版信息
J Bacteriol. 1982 Jun;150(3):1292-6. doi: 10.1128/jb.150.3.1292-1296.1982.
Abstract
Stable mutants with reduced capacity to produce capsules were isolated from suspensions of Cryptococcus neoformans after treatment of the wild type with a mutagen. The mutants could be assigned one of two phenotypes, hypocapsular or acapsular. Hypocapsular mutants were immunochemically and physicochemically indistinguishable from the wild type, whereas acapsular mutants lacked a major capsular antigen and a negatively charged exterior. In genetic analysis, the mutant trait segregated as a Mendelian gene (1:1) when random basidiospores from an outcross were studied, and analysis of products of single meiotic events from outcrossed mutants was likewise consistent with meiotic segregation. Two-factor crosses yielded the expected four classes of progeny, with recombinants equal to parentals. We concluded that chromosomal genes are responsible for synthesis of the cryptococcal capsule and that random basidiospore analysis represents a useful technique for genetic analysis in this species.
摘要
在用诱变剂处理野生型新型隐球菌后,从其悬浮液中分离出了产生荚膜能力降低的稳定突变体。这些突变体可分为两种表型之一,即少荚膜型或无荚膜型。少荚膜型突变体在免疫化学和物理化学性质上与野生型无法区分,而无荚膜型突变体则缺乏主要的荚膜抗原和带负电荷的外部结构。在遗传分析中,当研究来自杂交后代的随机担孢子时,突变性状以孟德尔基因(1:1)的方式分离,并且对杂交突变体单个减数分裂事件产物的分析同样与减数分裂分离一致。双因子杂交产生了预期的四类后代,重组体与亲本相等。我们得出结论,染色体基因负责新型隐球菌荚膜的合成,并且随机担孢子分析是该物种遗传分析的一种有用技术。
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