海兔已鉴定的神经分泌细胞R15中所含一种假定激素对水的调节作用。

Water regulation by a presumptive hormone contained in identified neurosecretory cell R15 of Aplysia.

作者信息

Kupfermann I, Weiss K

出版信息

J Gen Physiol. 1976 Jan;67(1):113-23. doi: 10.1085/jgp.67.1.113.

DOI:10.1085/jgp.67.1.113

PMID:1459

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2214914/

Abstract

Injection of an homogenate of identified neuron R15 into the hemocele of Aplysia produced a weight increase of 3-10% within 90 min. Control injections of several other identified neurons or of seawater, were ineffective. The weight increase occurred even when the animals were maintained in 5% hyperosmotic seawater. The activity of the R15 homogenate was retained after acidification to pH 2 and heating to 100 degrees C; but activity was destroyed by proteolytic digestion with Pronase. Dialysis in cellulose dialysis tubing resulted in a significant loss of aion on Sephadex G-50 (nominal exclusion limits 1,500-30,000 daltons), activity was present in the partially included volumes, but was absent in the totally excluded or totally included volumes. The data support the notion that R15 contains one or more hormones involved in ionic regulation or water balance. The results of bioassays of R15 extracts subjected to different treatments are consistent with the hypothesis that activity is due to one or more stable polypeptides of relatively low molecular weight.

摘要

将已鉴定的神经元R15的匀浆注射到海兔的血囊肿中，90分钟内体重增加了3%-10%。注射其他几种已鉴定的神经元或海水作为对照则无效。即使将动物饲养在5%的高渗海水中，体重仍会增加。R15匀浆在酸化至pH 2并加热至100摄氏度后仍保留活性；但用链霉蛋白酶进行蛋白水解消化会破坏活性。在纤维素透析管中进行透析导致在Sephadex G-50（标称排阻极限为1500-30000道尔顿）上大量离子损失，活性存在于部分包含体积中，但在完全排阻或完全包含体积中不存在。这些数据支持R15含有一种或多种参与离子调节或水平衡的激素这一观点。对经过不同处理的R15提取物进行生物测定的结果与活性归因于一种或多种相对低分子量的稳定多肽这一假设一致。

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本文引用的文献

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