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从全球视角看大麦遗传学与驯化的重要性。

The importance of barley genetics and domestication in a global perspective.

作者信息

Pourkheirandish Mohammad, Komatsuda Takao

机构信息

National Institute of Agrobiological Sciences (NIAS), Tsukuba 305-8602, Japan.

出版信息

Ann Bot. 2007 Nov;100(5):999-1008. doi: 10.1093/aob/mcm139. Epub 2007 Aug 30.

DOI:10.1093/aob/mcm139
PMID:17761690
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2759206/
Abstract

BACKGROUND

Archaeological evidence has revealed that barley (Hordeum vulgare) is one of the oldest crops used by ancient farmers. Studies of the time and place of barley domestication may help in understanding ancient human civilization.

SCOPE

The studies of domesticated genes in crops have uncovered the mechanisms which converted wild and unpromising wild species to the most important food for humans. In addition to archaeological studies, molecular studies are finding new insights into the process of domestication. Throughout the process of barley domestication human selection on wild species resulted in plants with more harvestable seeds. One of the remarkable changes during barley domestications was the appearance of six-rowed barley. The gene associated with this trait results in three times more seed per spike compared with ancestral wild barley. This increase in number of seed resulted in a major dichotomy in the evolution of barley. The identification of the six-rowed spike gene provided a framework for understanding how this character was evolved. Some important barley domestication genes have been discovered and many are currently being investigated.

CONCLUSIONS

Identification of domestication genes in crops revealed that most of the drastic changes during domestication are the result of functional impairments in transcription factor genes, and creation of new functions is rare. Isolation of the six-rowed spike gene revealed that this trait was domesticated more than once in the domestication history of barley. Six-rowed barley is derived from two-rowed ancestral forms. Isolation of photoperiod-response genes in barley and rice revealed that different genes belonging to similar genetic networks partially control this trait.

摘要

背景

考古证据表明,大麦(Hordeum vulgare)是古代农民最早使用的作物之一。对大麦驯化时间和地点的研究可能有助于理解古代人类文明。

范围

对作物驯化基因的研究揭示了将野生且无前途的野生物种转化为人类最重要食物的机制。除了考古研究外,分子研究也为驯化过程带来了新的见解。在大麦驯化的整个过程中,人类对野生物种的选择导致了具有更多可收获种子的植物出现。大麦驯化过程中一个显著的变化是六行大麦的出现。与该性状相关的基因导致每个穗的种子数量是原始野生大麦的三倍。种子数量的增加导致了大麦进化中的一个主要二分法。六行穗基因的鉴定为理解这一性状是如何进化的提供了一个框架。一些重要的大麦驯化基因已被发现,目前还有许多正在研究中。

结论

作物驯化基因的鉴定表明,驯化过程中的大多数剧烈变化是转录因子基因功能受损的结果,新功能的产生很少见。六行穗基因的分离表明,这一性状在大麦驯化历史中被驯化了不止一次。六行大麦源自两行的祖先形式。大麦和水稻光周期反应基因的分离表明,属于相似遗传网络的不同基因部分控制这一性状。

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