Р. V. Kuzmitskaya, К. S. Karaleva, О. Y. Urbanovich
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At that, the genes demonstrated a tendency to increase their expression by the fourth hour of drought exposure followed by its decrease by the twenty-fourth hour.A comparison of the data obtained during the described experiment with the data obtained when modeling drought under milder conditions showed that under more severe drought conditions, an expression of a greater number of gene encoding stress-associated proteins increases, and a more pronounced response occurs. Evaluation of the effect of an identity degree of nucleotide sequences of gene encoding stress-associated proteins on the similarity of their expression profiles under drought exposure did not reveal any direct relationship between the primary structure of genes and the nature of their expression.In the structure of stress-associated proteins encoded by the genes most strongly response to drought in Malus, Solanum lycopersicum, Gossypium hirsutum, and Cucumis sativus, the A20-AN1 type domain occurs more frequently than other types of zinc finger domains. Analysis of the similarity of stress-associated protein sequences and the expression levels of genes encoding them under drought conditions in different plant species (apple, cotton, tomato, and cucumber) suggests that in each species, the evolution of adaptation mechanisms, including SAP encoding genes, occurred independently and, most likely, after separation of those species from their common ancestor. 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Evaluation of the effect of an identity degree of nucleotide sequences of gene encoding stress-associated proteins on the similarity of their expression profiles under drought exposure did not reveal any direct relationship between the primary structure of genes and the nature of their expression.In the structure of stress-associated proteins encoded by the genes most strongly response to drought in Malus, Solanum lycopersicum, Gossypium hirsutum, and Cucumis sativus, the A20-AN1 type domain occurs more frequently than other types of zinc finger domains. Analysis of the similarity of stress-associated protein sequences and the expression levels of genes encoding them under drought conditions in different plant species (apple, cotton, tomato, and cucumber) suggests that in each species, the evolution of adaptation mechanisms, including SAP encoding genes, occurred independently and, most likely, after separation of those species from their common ancestor. 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引用次数: 0
摘要
在植物中,胁迫相关蛋白(SAP)参与了对不利的生物和非生物因素的响应。为了研究干旱对苹果树中 SAP 表达水平变化的影响及其在应激反应中的参与情况,使用 qPCR 分析了属于该家族的 14 个基因的表达水平。结果表明,在 MM-106 苹果树砧木的基因组中,这些基因参与了对干旱的应激反应。将所述实验中获得的数据与在较温和条件下模拟干旱时获得的数据进行比较后发现,在更严重的干旱条件下,更多编码应激相关蛋白的基因表达量会增加,并出现更明显的反应。评估编码应激相关蛋白的基因核苷酸序列的同一性对干旱条件下基因表达谱相似性的影响,没有发现基因的一级结构与基因表达的性质有任何直接关系。在Malus、Solanum lycopersicum、Gossypium hirsutum和Cucumis sativus对干旱反应最强烈的基因所编码的应激相关蛋白结构中,A20-AN1型结构域出现的频率高于其他类型的锌指结构域。对不同植物物种(苹果、棉花、番茄和黄瓜)中干旱条件下胁迫相关蛋白序列和编码这些蛋白的基因表达水平的相似性分析表明,在每个物种中,适应机制(包括 SAP 编码基因)的进化都是独立发生的,而且很可能是在这些物种从其共同祖先分离出来之后发生的。研究结果将有助于明确编码 SAP 的单个基因在形成苹果对干旱影响的应激反应中的作用。
Effect of moisture deficiency on the apple stress-associated protein expression level .
In plants, stress-associated proteins (SAP) are involved in response to adverse biotic and abiotic factors. In order to study the drought effect on changes in the SAP expression level in apple trees and their involvement in stress response, an expression level of fourteen genes belonging to this family was analyzed using qPCR. Their participation in a stress response to drought in the genome of the MM-106 apple tree rootstock was shown. At that, the genes demonstrated a tendency to increase their expression by the fourth hour of drought exposure followed by its decrease by the twenty-fourth hour.A comparison of the data obtained during the described experiment with the data obtained when modeling drought under milder conditions showed that under more severe drought conditions, an expression of a greater number of gene encoding stress-associated proteins increases, and a more pronounced response occurs. Evaluation of the effect of an identity degree of nucleotide sequences of gene encoding stress-associated proteins on the similarity of their expression profiles under drought exposure did not reveal any direct relationship between the primary structure of genes and the nature of their expression.In the structure of stress-associated proteins encoded by the genes most strongly response to drought in Malus, Solanum lycopersicum, Gossypium hirsutum, and Cucumis sativus, the A20-AN1 type domain occurs more frequently than other types of zinc finger domains. Analysis of the similarity of stress-associated protein sequences and the expression levels of genes encoding them under drought conditions in different plant species (apple, cotton, tomato, and cucumber) suggests that in each species, the evolution of adaptation mechanisms, including SAP encoding genes, occurred independently and, most likely, after separation of those species from their common ancestor. The results obtained will make it possible to clarify the role of individual genes, encoding SAP, in the formation of an apple stress response to the drought effect.