请输入您要查询的英文单词:

 

单词 cis-trans test
释义

cis-trans test


cis-trans test

(ˈsɪsˈtrɑːnz) n (Genetics) genetics a test to define the unit of genetic function, based on whether two mutations of the same character occur in a single chromosome (the cis position) or in different cistrons in each chromosome of a homologous pair (the trans position)[C20: see cis-, trans-]

Cis-Trans Test


Cis-Trans Test

 

a method of genetic analysis that determines whether recessive mutations occur in a single gene or in different genes. The test was devised by the American geneticist E. Lewis in 1951.

In conducting the cis-trans test, the mutations under study are combined in the trans and cis positions. When the mutations are combined in the trans position, two individuals, each with one of the mutations under analysis, are crossed. When the mutations are combined in the cis position, an individual with both mutations is crossed with an individual of a wild (normal) type. In the trans test, that is, the functional test for allelism, if the mutations combined in the trans position belong to different genes, a hybrid organism is automatically obtained from an intact copy of each gene. In this case the recessive mutations are not manifested and the hybrid has a normal phenotype, that is, the mutations are complementary. If the combined mutations belong to the same gene, both copies of the given gene in the hybrid are negatively affected and a mutant phenotype appears, that is, the mutations are noncomplementary.

Lewis’ trans test may be improved by studying mutations in the process of combining in the cis position as well, thus eliminating artifacts (atypical structures) caused by gene interaction at the level of gene products. If in the cis-trans test the hybrid’s phenotype is the same in the cis and trans positions, that is, if there is no cis-trans effect, the mutations under study occur within different genes. If, however, the hybrid’s phenotype is different in the cis and trans positions, that is, if there is a cis-trans effect, the mutations occur within the same gene. In 1957 the American geneticist S. Benzer proposed that the unit determined by the cis-trans test be called the cistron.

Since it is difficult to combine in the cis position mutations that are situated closely together within a chromosome, the cis-trans test is rarely conducted. Research has revealed that in some cases several mutations of the same gene are complementary, and also that the cis-trans effect may occur in mutations of different genes in a single operon. These discoveries have reduced the theoretical value of both the trans test and the cis-trans test. The trans test is still widely used in applied genetic analysis to determine whether given mutations occur within a single gene (cistron).

REFERENCES

Stent, G. Molekuliarnaia genetika. Moscow, 1974. (Translated from English.)
Fiziologicheskaia genetika. Leningrad, 1976.

T. R. SOIDLA

cis-trans test


cis-trans test

 [sis trans] a test in microbial genetics to determine whether two mutations that have the phenotypic effects, in a haploid cell or a cell with single phage infection, are located in the same gene or different genes; the test depends on the independent behavior of two alleles of a gene in a diploid cell or in a cell infected with two phages carrying different alleles.
Cis-trans Fig. 104 Cis-trans test . The cis-trans test configurations. m1 and m2 are mutations. The two lines represent two homologous chromosomes.

cis-trans test

a genetic COMPLEMENTATION TEST to determine if two mutations have occurred within the same CISTRON or in adjacent cistrons. The test depends upon the two mutations being introduced into a cell at the same time. If they ‘complement’ each other by producing a WILD TYPE phenotype the mutations are in different cistrons (i.e. nonallelic). If a mutant phenotype is produced this shows the two mutations to be noncomplementary and therefore to be located in the same cistron (i.e. allelic). Two arrangements are possible in the cis-trans test (see Fig. 104 which can be carried out in a double HETEROZYGOTE individual (a HETEROKARYON in a haploid type). The more important is the transconfiguration, which is diagnostic, since two normal cistrons are present if the mutations are nonallelic (giving wild type) whereas the same cistron is mutant on both chromosomes if the mutations are allelic (giving a mutant phenotype).
LegalSeeTestFinancialSeetest
随便看

 

英语词典包含2567994条英英释义在线翻译词条,基本涵盖了全部常用单词的英英翻译及用法,是英语学习的有利工具。

 

Copyright © 2004-2022 Newdu.com All Rights Reserved
更新时间:2024/12/24 4:11:31