南京林业大学学报(自然科学版)
南京林業大學學報(自然科學版)
남경임업대학학보(자연과학판)
JOURNAL OF NANJING FORESTRY UNIVERSITY(NATURAL SCIENCE EDITION)
2006年
3期
1-12
,共12页
邬荣领%林敏%赵伟%侯伟%张博%诸葛强%黄敏仁%徐立安
鄔榮領%林敏%趙偉%侯偉%張博%諸葛彊%黃敏仁%徐立安
오영령%림민%조위%후위%장박%제갈강%황민인%서립안
发育轨迹%动态性状%统计模型%函数作图%数量性状位点%数量性状核苷酸
髮育軌跡%動態性狀%統計模型%函數作圖%數量性狀位點%數量性狀覈苷痠
발육궤적%동태성상%통계모형%함수작도%수량성상위점%수량성상핵감산
Developmental trajectory%Dynamic trait%Statistical model%Functional mapping%Quantitative trait loci%Quantitative trait nucleotides
许多重要的农艺性状、生物学和生物医学性状都是数量性状,这些性状在不同的发育阶段发生变化,并表现出复杂的动态特征.针对这些动态性状,传统的遗传作图方法是通过在不同的年龄或发育阶段利用遗传标记与表型性状进行关联分析,并比较这些性状在不同发育阶段的差异,或者通过进行不同阶段的多位点作图进行分析.然而,这些方法并不能确切地反映整个发育过程和动态特点,这使得对性状遗传结构的推测受到限制.要克服这一困难,函数作图将为动态性状的遗传学研究提供一条有效的途径.函数作图综合了生物学机制的数学特性和性状遗传作图的统计学特点,结合统计模型、遗传学和发育生物学的函数作图策略,力求解决诸如发育的遗传控制模式、QTL的持续效应以及引起发育过程中启动和终止的遗传机制等问题.笔者提出的函数作图策略将提供一个研究基因作用及互作与发育模式之间有效的量化检测平台.
許多重要的農藝性狀、生物學和生物醫學性狀都是數量性狀,這些性狀在不同的髮育階段髮生變化,併錶現齣複雜的動態特徵.針對這些動態性狀,傳統的遺傳作圖方法是通過在不同的年齡或髮育階段利用遺傳標記與錶型性狀進行關聯分析,併比較這些性狀在不同髮育階段的差異,或者通過進行不同階段的多位點作圖進行分析.然而,這些方法併不能確切地反映整箇髮育過程和動態特點,這使得對性狀遺傳結構的推測受到限製.要剋服這一睏難,函數作圖將為動態性狀的遺傳學研究提供一條有效的途徑.函數作圖綜閤瞭生物學機製的數學特性和性狀遺傳作圖的統計學特點,結閤統計模型、遺傳學和髮育生物學的函數作圖策略,力求解決諸如髮育的遺傳控製模式、QTL的持續效應以及引起髮育過程中啟動和終止的遺傳機製等問題.筆者提齣的函數作圖策略將提供一箇研究基因作用及互作與髮育模式之間有效的量化檢測平檯.
허다중요적농예성상、생물학화생물의학성상도시수량성상,저사성상재불동적발육계단발생변화,병표현출복잡적동태특정.침대저사동태성상,전통적유전작도방법시통과재불동적년령혹발육계단이용유전표기여표형성상진행관련분석,병비교저사성상재불동발육계단적차이,혹자통과진행불동계단적다위점작도진행분석.연이,저사방법병불능학절지반영정개발육과정화동태특점,저사득대성상유전결구적추측수도한제.요극복저일곤난,함수작도장위동태성상적유전학연구제공일조유효적도경.함수작도종합료생물학궤제적수학특성화성상유전작도적통계학특점,결합통계모형、유전학화발육생물학적함수작도책략,력구해결제여발육적유전공제모식、QTL적지속효응이급인기발육과정중계동화종지적유전궤제등문제.필자제출적함수작도책략장제공일개연구기인작용급호작여발육모식지간유효적양화검측평태.
Many quantitative traits of agricultural, biological and biomedical importance alter their phenotypes over development and display a complicated dynamic feature. Traditional approaches for genetic mapping of these so called dynamic traits have been to associate markers with phenotypes for different ages or stages of development and to compare the differences across these stages, or to use multiple trait mapping where the same character is repeatedly measured at different times. In either case, these approaches does not capture the dynamic structure and pattern of the process, which greatly limits the scope of inference about its genetic architecture. To overcome these limitations, Functional Mapping, that is,the integration of the mathematical aspects of the biological mechanisms and processes of the traits within the statistical genetic mapping framework, is the natural way to approach the genetics of dynamic traits. The combination of statistical modelling, genetics, and developmental biology begs many questions, such as the patterns of genetic control over development, the duration of QTL effects, as well as what causes developmental trajectories to change or stop changing. This paper shows that the functional mapping provides a useful quantitative and testable framework for assessing the interplay between gene actions/interactions and developmental patterns.
