In many species translocation of sucrose from the mesophyll to the phloem is carrier mediated. A sucrose/H+-symporter cDNA, NtSUT1, was isolated from tobacco (Nicotiana tabacum) and shown to be highly expressed in mature leaves and at low levels in other tissues, including floral organs. To study the in vivo function of NtSUT1, tobacco plants were transformed with a SUT1 antisense construct under control of the cauliflower mosaic virus 35S promoter. Upon maturation, leaves of transformants expressing reduced amounts of SUT1 mRNA curled downward, and strongly affected plants developed chloroses and necroses that led to death. The leaves exhibited impaired ability to export recently fixed 14CO2 and were unable to export transient starch during extended periods of darkness. As a consequence, soluble carbohydrates accumulated and photosynthesis was reduced. Autoradiographs of leaves show a heterogenous pattern of CO2 fixation even after a 24-h chase. The 14C pattern does not change with time, suggesting that movement of photosynthate between mesophyll cells may also be impaired. The affected lines show a reduction in the development of the root system and delayed or impaired flowering. Taken together, the effects observed in a seed plant (tobacco) demonstrate the importance of SUT1 for sucrose loading into the phloem via an apoplastic route and possibly for intermesophyll transport as well.
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机译:在许多物种中,蔗糖从叶肉到韧皮部的转运是由载体介导的。从烟草(Nicotiana tabacum)中分离出蔗糖/ H + -转运蛋白cDNA NtSUT1,并在成熟叶片中高表达,在其他组织(包括花器官)中低表达。为了研究NtSUT1的体内功能,在花椰菜花叶病毒35S启动子的控制下,用SUT1反义构建体转化了烟草植物。成熟后,表达减少量的SUT1 mRNA的转化子的叶子向下卷曲,并且受到严重影响的植物发生了绿化和坏死,从而导致死亡。叶片显示出最近固定的 14 CO2出口能力受损,并且在较长的黑暗时间内无法出口瞬时淀粉。结果,可溶性碳水化合物积累并减少了光合作用。叶子的放射自显影照片显示,即使经过24小时的追踪,CO2固定的异质模式也不同。 14 C 模式不会随时间变化,这表明 叶肉细胞之间的光合产物也可能受损。的 受影响的品系显示根系发育减少 和延迟或受损的开花。综上所述,观察到的效果 在种子植物(烟草)中证明了SUT1对于 蔗糖通过质外途径进入韧皮部,可能 用于间质运输。
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