Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms

Arvind Kumar; Mali Ram Hindala; Moinuddin Khan; Sushil Kumar1 3; Vishakha Sharma

首页> 外文期刊>Journal of genetics >Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms

【24h】

Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms

机译：生长素转运抑制剂诱导的低复杂度的叶柄和无柄叶状托叶，以及豌豆可遗传叶和托叶突变体的结构表明其简单的叶状托叶和复合叶代表被子植物的祖先形式

获取原文

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

In angiosperms, leaf and stipule architectures are inherited species-specific traits. Variation in leaf and stipule sizes, and forms result from the interaction between abiotic and biotic stimuli, and gene regulatory network(s) that underlie the leaf and stipule developmental programme(s). Here, correspondence between variation in leaf and stipule architectures described for extant angiosperms and that induced mutationally and by imposition of stress in model angiosperm species, especially in Pisum sativum, was detected. Following inferences were drawn from the observations.Several leaf forms in P. sativum have origin in fusion of stipule and leaf primordia. Perfoliate (and amplexicaul and connate) simple sessile leaves and sessile adnate leaves are the result of such primordial fusions. Reversal of changes in the gene regulatory network responsible for fusion products are thought to restore original stipule and leaf conditions.

机译：在被子植物中，叶片和托叶的结构是特定物种的遗传特征。叶片和托叶的大小和形式的变化是由非生物和生物刺激物之间相互作用以及基因和调节叶和托叶发育程序基础的网络造成的。在这里，检测到在现存被子植物中描述的叶片和托叶结构的变化之间的对应关系，以及在模型被子植物中，特别是在豌豆中，通过施加压力和突变而诱导的变化。从观察中得出以下推论。番茄中的几种叶片形式起源于托叶和原基融合。过叶的（和双生的和近生的）简单的无柄叶和无柄的无性叶是这种原始融合的结果。逆转负责融合产物的基因调控网络的变化被认为可以恢复原始的托叶和叶片状况。

著录项

来源
《Journal of genetics》 |2013年第1期|共页
作者
Arvind Kumar; Mali Ram Hindala; Moinuddin Khan; Sushil Kumar1 3; Vishakha Sharma;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种
中图分类遗传学;
关键词

相似文献

外文文献

1. Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms [J] . Kumar A., Sharma V., Khan M., Journal of genetics . 2013,第1期

机译：生长素转运抑制剂诱导的低复杂度的叶柄和无柄叶状托叶，以及豌豆可遗传叶和托叶突变体的结构表明其简单的叶状托叶和复合叶代表被子植物的祖先形式
2. Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms [J] . ARVIND KUMAR KUMAR, VISHAKHA SHARMA, MOINUDDIN KHAN, Journal of Genetics . 2013,第1期

机译：生长素转运抑制剂诱导的低复杂度的叶柄和无柄叶状托叶，以及豌豆可遗传叶和托叶突变体的结构表明其简单的叶状托叶和复合叶代表被子植物的祖先形式
3. Pisum sativum wild-type and mutant stipules and those induced by an auxin transport inhibitor demonstrate the entire diversity of laminated stipules observed in angiosperms [J] . Kumar A., Sharma V., Khan M., Protoplasma: An International Journal of Cell Biology . 2013,第1期

机译：豌豆野生型和突变型托叶以及由生长素转运抑制剂诱导的托叶显示了在被子植物中观察到的叠层托叶的全部多样性

Auxin transport inhibitor induced low complexity petiolated leaves and sessile leaf-like stipules and architectures of heritable leaf and stipule mutants in Pisum sativum suggest that its simple lobed stipules and compound leaf represent ancestral forms in angiosperms

摘要

著录项

相似文献

相关主题

期刊订阅