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放射性碳在向向日葵叶片施加 C-丙氨酸和 CO₂ 后的转移。

Translocation of Radioactive Carbon after the Application of C-Alanine and CO(2) to Sunflower Leaves.

机构信息

Department of Botany, University of Toronto, Toronto, Ontario, M5S IAI, Canada.

出版信息

Plant Physiol. 1974 Jan;53(1):21-7. doi: 10.1104/pp.53.1.21.

DOI:10.1104/pp.53.1.21

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC541326/

Abstract

(14)C-(UL)-l-Alanine was applied to the surface of mature leaves at the second node of sunflower (Helianthus annuus L. cv Commander) plants, under illumination. The alanine was absorbed during a 4-hour period, and some of it was metabolized by the absorbing tissue. After a lag period of about 15 minutes from first application, distribution of (14)C through the plant proceeded in much the same pattern as when (14)CO(2) is assimilated by similar leaves. Most, if not all, of the (14)C exported from the absorbing regions was in sucrose. Only minute amounts appeared in alanine or other amino acids in surrounding parts of the leaf blade or in the petiole, although these were strongly labeled in the tissue absorbing (14)C-alanine.When (14)CO(2) was supplied for 15 minutes to leaves of different ages, amino acids were lightly labeled in the leaf blade. Mature green leaves exported only sucrose. Yellowing leaves on 60-day-old plants exported a variety of substances including amino acids.

摘要

（14）C-（UL）-l-丙氨酸被应用于向日葵（Helianthus annuus L. cv Commander）植物成熟叶片第二个节点的表面，在光照下。丙氨酸在 4 小时内被吸收，其中一些被吸收组织代谢。从第一次应用开始约 15 分钟的滞后期后，（14）C 通过植物的分布与类似叶片同化（14）CO2 的方式非常相似。从吸收区域输出的（14）C 大部分（如果不是全部的话）都在蔗糖中。虽然叶片的叶柄或叶片周围的组织在吸收（14）C-丙氨酸时强烈标记，但只有微量的（14）C 出现在丙氨酸或其他氨基酸中。当将（14）CO2 供应给不同年龄的叶片 15 分钟时，叶片中的氨基酸被轻度标记。成熟的绿色叶片仅输出蔗糖。60 天大的植物的黄化叶片输出各种物质，包括氨基酸。