2,3,5-三碘苯甲酸对豌豆叶片形态的修饰

Botanical Gazette Pub Date : 1991-06-01 DOI:10.1086/337872

K. Gould, E. G. Cutter

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引用次数: 13

摘要

采用2-200 μM TIBA培养基培养普通豌豆、无尾豌豆和无蔓豌豆(Pisum sativum L.)的单节外植体。在常规芽和无卷须芽中，TIBA导致:(1)单叶而不是复叶的发育;(ii)代替正常卷须的顶生小叶;(iii)一个壁壁叶而不是正常的壁壁叶;(iv)环形扣合;(5)先天性双侧小叶融合。在TIBA存在的情况下，榕叶上的卷须呈放射状肿胀，并被深深割裂。豌豆叶片的测定是一个渐进的过程。传统的豌豆卷须能够形成小叶层，但在早期的关键阶段，它们通常无法获得最佳水平的适当信号。卷须原基不能发育成小叶。卷须性叶原基接收并响应小叶发育的信号。它们比传统的叶子更早被确定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modification of Pea Leaf Morphology by 2,3,5-Triiodobenzoic Acid

Single node explants of conventional, afila, and tendril-less peas (Pisum sativum L.) were cultured on a nutrient medium containing 2-200 μM TIBA. In conventional and tendril-less shoots, TIBA caused the development of: (i) a simple leaf rather than a compound leaf; (ii) a terminal leaflet in place of a normal tendril; (iii) a paripinnate leaf instead of the normal imparipinnate leaf; (iv) a ring fasciation; and (v) congenital fusion of two lateral leaflets. Tendrils borne on afila leaves were swollen radially and deeply cloven in the presence of TIBA. Pea leaf determination is a gradual process. Conventional pea tendrils are competent to form leaflet laminae, but they do not normally receive optimum levels of the appropriate signal at an early, critical stage. Afila tendril primordia are not competent to develop into leaflets. Tendrilless leaf primordia receive and can respond to signals for leaflet development. They are determined earlier than conventional leaves.

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Botanical Gazette

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