{"title":"Mating designs commonly used in plant breeding: A review","authors":"J. Muthoni, H. Shimelis","doi":"10.21475/AJCS.20.14.12.P2588","DOIUrl":null,"url":null,"abstract":"Mating design represents \"rules\" for arranging different controlled crossings; a mating design is a procedure of producing progenies. This review describes mating designs commonly used in plant breeding. Biparental is the simplest design in which a number of P plants are paired off to give ½P families; the parents are mated only once in pairs. The design is simple and it provides information needed to determine if significant genetic variation is present in a population for a long term selection program. A polycross is a mating arrangement for interpollinating a group of cultivars or clones using natural hybridization in an isolated crossing block. The design is often used for generating synthetic cultivars. The North Carolina (NC) mating designs permit determination and/or estimation of variance components (additive and dominance components) by using the information from half-sib (HS) families. The experimental material of North Carolina designs I, II and III is developed from F2 generation as a base material. The design III (NCIII) involves backcrossing the F2 plants to the two parental inbred lines from which the F2 were derived. The NCIII design was extended to include a third tester. This third tester is the F1 from the two parental inbred lines; in this extended form, this design is known as the triple test cross (TTC). Line x Tester mating design uses inbred lines as the base population. The design is useful in deciding the relative ability of a number of female and male inbreds to produce desirable hybrid combinations. When the same parents are used as females and males in breeding, the mating design is called diallel. Parents used range from inbred lines to broad genetic base varieties to clones. The design is the most commonly used in crop plants to estimate GCA and SCA and variances. \nGenerally, it should be noted that is not the mating design per se, but the breeder who breeds a new cultivar. Consequently, proper choice and use of a mating design will provide the most valuable information for breeding","PeriodicalId":20643,"journal":{"name":"Proposed for presentation at the 2020 Virtual MRS Fall Meeting & Exhibit held November 27 - December 4, 2020.","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-12-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Proposed for presentation at the 2020 Virtual MRS Fall Meeting & Exhibit held November 27 - December 4, 2020.","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21475/AJCS.20.14.12.P2588","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 5
Abstract
Mating design represents "rules" for arranging different controlled crossings; a mating design is a procedure of producing progenies. This review describes mating designs commonly used in plant breeding. Biparental is the simplest design in which a number of P plants are paired off to give ½P families; the parents are mated only once in pairs. The design is simple and it provides information needed to determine if significant genetic variation is present in a population for a long term selection program. A polycross is a mating arrangement for interpollinating a group of cultivars or clones using natural hybridization in an isolated crossing block. The design is often used for generating synthetic cultivars. The North Carolina (NC) mating designs permit determination and/or estimation of variance components (additive and dominance components) by using the information from half-sib (HS) families. The experimental material of North Carolina designs I, II and III is developed from F2 generation as a base material. The design III (NCIII) involves backcrossing the F2 plants to the two parental inbred lines from which the F2 were derived. The NCIII design was extended to include a third tester. This third tester is the F1 from the two parental inbred lines; in this extended form, this design is known as the triple test cross (TTC). Line x Tester mating design uses inbred lines as the base population. The design is useful in deciding the relative ability of a number of female and male inbreds to produce desirable hybrid combinations. When the same parents are used as females and males in breeding, the mating design is called diallel. Parents used range from inbred lines to broad genetic base varieties to clones. The design is the most commonly used in crop plants to estimate GCA and SCA and variances.
Generally, it should be noted that is not the mating design per se, but the breeder who breeds a new cultivar. Consequently, proper choice and use of a mating design will provide the most valuable information for breeding
配合设计代表了安排不同的受控交叉的“规则”;交配设计是产生后代的过程。本文综述了植物育种中常用的配种设计。双亲本是最简单的设计,其中许多P植物配对形成½P家族;父母只配对一次。设计很简单,它提供了必要的信息,以确定是否显着的遗传变异存在于一个长期的选择程序的群体。多交是指在一个孤立的杂交块中,利用自然杂交使一组栽培品种或无性系相互授粉的一种交配安排。这种设计常用于培育合成品种。北卡罗莱纳(NC)配种设计允许利用来自同父异母(HS)家族的信息确定和/或估计方差成分(加性成分和显性成分)。北卡罗莱纳设计I、II和III的实验材料是作为基础材料从F2代发展而来的。设计III (NCIII)涉及将F2植株回交到产生F2的两个亲本自交系。NCIII设计扩展到包括第三个测试器。第三个测试者是来自两个亲本自交系的F1;在这种扩展形式中,这种设计被称为三重测试交叉(TTC)。Line x Tester配种设计使用自交系作为基础种群。这种设计在决定一些雌性和雄性自交系产生理想杂交组合的相对能力时是有用的。当同一亲本作为雌性和雄性进行繁殖时,这种交配设计称为双列杂交。亲本的使用范围从自交系到广泛的遗传基础品种到无性系。该设计在作物作物中最常用来估计GCA和SCA及其方差。一般来说,应该注意的不是交配设计本身,而是培育新品种的育种者。因此,正确选择和使用交配设计将为育种提供最有价值的信息
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