1) genetic map merging
遗传图谱整合
2) genetic map
遗传图谱
1.
Genetic Mapping and Gene Localization of Main Agronomic Characters of Sorghum×Sudan Grass;
高丹草遗传图谱构建及重要农艺性状的基因定位研究
2.
Construction of Genetic Map by SSR Marker and Location QTL for Plant Height and Heading Time in Wheat;
小麦SSR标记遗传图谱构建与株高和抽穗期的QTL定位
3) Linkage map
遗传图谱
1.
Molecular linkage map constructed by SSR and AFLP markers in maize;
玉米分子遗传图谱的SSR和AFLP标记构建
2.
The worldwide progress on construction of molecular marker linkage map,comparative mapping,quantitative trait locus(QTL) mapping and marker-aided selection(MAS) in Pinus spp.
本文回顾了世界上松树分子标记遗传图谱构建、比较遗传作图、数量性状位点定位和标记辅助选择的研究进展。
4) genetic linkage map
遗传图谱
1.
Advances in construction of genetic linkage maps in Medicago sativa and their applications;
苜蓿遗传图谱构建及其应用
2.
A genetic linkage map with 88 loci from 6111 pair SSR primers was constructed using 188 F2 plants obtained from a cross between two upland cotton cultivars,which differ remarkably in lint percentage and have relatively high levels of DNA marker polymorphism.
57cM的遗传图谱,覆盖棉花基因组的14。
3.
The applications of the molecular markers in tobacco were also reviewed on characterization of germplasm,construction of genetic linkage map,mapping of qualitative and quantitative traits,and marker-assisted selection.
介绍了几种常用的分子标记技术及其特点,并从种质资源研究、遗传图谱构建与性状基因定位、分子标记辅助选择等方面综述了分子标记在烟草育种中的应用。
5) genetic mapping
遗传图谱
1.
The advances of studies on genetic mapping and genome of M.
本研究描述了蒺藜苜蓿的形态特征,介绍了苜蓿属植物的系统关系及蒺藜苜蓿的分类学地位,概述了蒺藜苜蓿遗传图谱构建和基因组学研究的进展。
2.
SSR technology has wide applications in vegetable breeding, including genetic mapping, DNA fingerprinting and genetic diversity studying of germplasms.
SSR技术在蔬菜育种中有着广泛的应用,主要是构建遗传图谱、DNA指纹图谱的建立、种质资源的遗传多样性等方面。
3.
The applications and development of AFLP in genetic diversity, boilagical germplasm identification, genetic mapping,marker assistant selection were reviewed.
本文综述了扩增片段长度多态性(AFLP)这种遗传标记的原理、技术特点、技术发展及其在动物遗传多样性、种质鉴定、遗传图谱构建、基因定位和标记辅助育种等研究中的应用。
6) integration map
整合图谱
1.
A total of 411 quantitative trait loci(QTL) conferring grain yield and its components of maize was collected and analyzed using bioinformatics tool,and the integration map containing 221 QTL was constructed by BioMercator 2.
1软件构建出含221个QTL的整合图谱。
补充资料:不整合
| 不整合 unconformity 上下两套不同时代地层之间出现过沉积间断或地层缺失的地层接触关系。地层不连续,古生物演化顺序也是不连续的,由此确定岩层的时代也是不连续的。地层剖面中的岩层是现存的地层部分,而不整合则是缺失的地层部分。不整合一般分为角度不整合和假整合(又称平行不整合)等类型。前者是两套地层呈一定角度接触,中间为一侵蚀面(即不整合面),说明在前一套地层沉积后,有一次大的构造运动和海陆变化,然后地壳再次下沉又沉积了后一套地层。后者是两套地层大体呈平行接触,中间为一侵蚀面(即不整合面),说明在前一套地层沉积过程中有一次较大的地壳上升或海退运动以后地壳再次拗陷,沉积了后一套地层。识别和鉴定不整合的证据:①地层自然记录缺失的间隔证据,包括古生物自然记录的间断和地层自然记录的间断。②侵蚀的证据,包括构造不一致和地形不规则。③古陆表面的证据,包括风化面、古土壤、底砾岩等。不整合研究具有广泛意义,它是造山幕建立或构造旋回划分、岩石地层单位划分的重要依据。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条