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新型桃(Prunus persica)CBF 转录因子在苹果(Malus × domestica)中的异位表达导致短日照诱导休眠和增加抗寒性。

Ectopic expression of a novel peach (Prunus persica) CBF transcription factor in apple (Malus × domestica) results in short-day induced dormancy and increased cold hardiness.

机构信息

U.S. Department of Agriculture, Agricultural Research Service (USDA-ARS), The Appalachian Fruit Research Station, Kearneysville, WV 25430, USA.

出版信息

Planta. 2011 May;233(5):971-83. doi: 10.1007/s00425-011-1358-3. Epub 2011 Jan 28.

DOI:10.1007/s00425-011-1358-3
PMID:21274560
Abstract

Low, non-freezing temperatures and/or short daylength (SD) regulates cold acclimation and dormancy in fruit trees. Regarding cold acclimation, C-repeat binding factor (CBF/DREB) transcriptional activator genes have the well-documented ability to induce the expression of a suite of genes associated with increased cold tolerance. We isolated a full-length cDNA of a peach CBF gene, designated PpCBF1 (GenBank Accession HM992943), and constitutively expressed it using an enhanced 35S promoter in apple. Unexpectedly, constitutive overexpression of the PpCBF1 in apple resulted in strong sensitivity to short daylength. Growth cessation and leaf senescence were induced in transgenic lines exposed to SD and optimal growth temperatures of 25°C over a 4-week period. Following 1-4 weeks of SD and 25°C trees were returned to LD and 25°C in the greenhouse. Control (untransformed) plants continued to grow while transgenic lines receiving two or more weeks of SD remained dormant and began to drop leaves. Constitutive overexpression of the PpCBF1 in apple resulted in a 4-6°C increase in freezing tolerance in both the non-acclimated and acclimated states, respectively, compared with untransformed M.26 trees. This is the first instance that constitutive overexpression of a CBF gene has resulted in SD-induction of dormancy and to our knowledge the first time apple has been shown to strongly respond to short daylength as a result of the insertion of a transgene.

摘要

低温、非冻结温度和/或短日照(SD)调节果树的抗寒驯化和休眠。关于抗寒驯化,C 重复结合因子(CBF/DREB)转录激活因子基因具有诱导与增强耐寒性相关的一系列基因表达的良好记录能力。我们分离了一个桃 CBF 基因的全长 cDNA,命名为 PpCBF1(GenBank 登录号 HM992943),并使用增强的 35S 启动子在苹果中组成型表达。出乎意料的是,在苹果中组成型过表达 PpCBF1 导致对短日照长度的强烈敏感性。在暴露于 SD 和最佳生长温度 25°C 的 4 周期间,转基因株系会停止生长并导致叶片衰老。在温室中,经过 1-4 周的 SD 和 25°C 后,将树木恢复到 LD 和 25°C。对照(未转化)植物继续生长,而接受两周或两周以上 SD 的转基因株系仍处于休眠状态并开始落叶。与未转化的 M.26 树相比,在未驯化和驯化状态下,苹果中 PpCBF1 的组成型过表达分别导致 4-6°C 的抗冻性增加。这是首次通过组成型过表达 CBF 基因导致 SD 诱导休眠,据我们所知,这也是首次由于插入转基因导致苹果对短日照长度产生强烈响应。

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