. 中对应激的性别特异性反应
Sex-Specific Response to Stress in .
作者信息
Melnikova Nataliya V, Borkhert Elena V, Snezhkina Anastasiya V, Kudryavtseva Anna V, Dmitriev Alexey A
机构信息
Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, Moscow, Russia.
出版信息
Front Plant Sci. 2017 Oct 26;8:1827. doi: 10.3389/fpls.2017.01827. eCollection 2017.
Abstract
is an effective model for genetic studies in trees. The genus includes dioecious species, and the differences exhibited in males and females have been intensively studied. This review focused on the distinctions between male and female poplar and aspen plants under stress conditions, such as drought, salinity, heavy metals, and nutrient deficiency on morphological, physiological, proteome, and gene expression levels. In most studies, males of species were more adaptive to the majority of the stress conditions and showed less damage, better growth, and higher photosynthetic capacity and antioxidant activity than that of the females. However, in two recent studies, no differences in non-reproductive traits were revealed for male and female trees. This discrepancy of the results could be associated with experimental design: different species and genotypes, stress conditions, types of plant materials, sampling sizes. Knowledge of sex-specific differences is crucial for basic and applied research in species.
摘要
是树木遗传研究的有效模型。该属包括雌雄异株物种,并且已经对雄性和雌性中表现出的差异进行了深入研究。本综述聚焦于在干旱、盐度、重金属和养分缺乏等胁迫条件下,雄性和雌性杨树及白杨植物在形态、生理、蛋白质组和基因表达水平上的差异。在大多数研究中,该物种的雄性对大多数胁迫条件更具适应性,并且与雌性相比,表现出的损伤更小、生长更好、光合能力和抗氧化活性更高。然而,在最近的两项研究中,未发现雄性和雌性树木在非生殖性状上存在差异。结果的这种差异可能与实验设计有关:不同的物种和基因型、胁迫条件、植物材料类型、样本大小。了解性别特异性差异对于该物种的基础研究和应用研究至关重要。
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