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龙虾加夫基菌中肽聚糖的生物合成:在有壁和无壁情况下通过冻融使细胞膜重新激活

Biosynthesis of peptidoglycan in Gaffkya homari: reactivation of membranes by freeze-thawing in the presence and absence of walls.

作者信息

Kalomiris E, Bardin C, Neuhaus F C

出版信息

J Bacteriol. 1982 May;150(2):535-44. doi: 10.1128/jb.150.2.535-544.1982.

DOI:10.1128/jb.150.2.535-544.1982
PMID:7068530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC216399/
Abstract

The reactivation of membranes from Gaffkya homari for the synthesis of sodium dodecyl sulfate-insoluble peptidoglycan (SDS-insoluble PG) was achieved by successive cycles of freeze-thawing (- 196 versus 25 degrees C). The presence of G. homari walls during this process affected the synthesis of both SDS-soluble (nascent) and SDS-insoluble PG. At two cycles the synthesis of SDS-soluble PG decreased by 70%, whereas that of SDS-insoluble PG increased sevenfold when compared with membranes reactivated in the absence of walls but assayed in the presence of walls. Moreover, at six cycles the lag time for the synthesis of SDS-insoluble PG decreased from 15 min to 5 to 7 min. Walls from G. homari could not be replaced with walls from Bacillus megaterium or cellulose. In addition to these effects, the presence of walls from G. homari or B. megaterium or of cellulose during the incubation of membranes freeze-thawed in the absence of walls increased twofold the amount of SDS-insoluble PG. Reactivated membranes showed greater sensitivities to penicillin (an inhibitor of dd-carboxypeptidase) and d-methionine (an inhibitor of ld-carboxypeptidase) than did isolated membrane-walls. The percentage of cross-linking of the SDS-insoluble PG synthesized by the reactivated system was 34%, a value similar to that observed for the polymer synthesized by isolated membrane-walls. Freeze-thawing membranes and walls together gave a complex with a density different from that of either membranes or walls. Thus, the assembly system for the synthesis and processing of PG was reconstituted in a complex of membranes and walls prepared from the isolated components. Whether this complex has the exact interrelationship between membrane and wall found in the organism has not been established.

摘要

通过连续的冻融循环(-196℃与25℃)实现了从荷马氏加夫基菌的膜的再活化,用于合成十二烷基硫酸钠不溶性肽聚糖(SDS不溶性PG)。在此过程中,荷马氏加夫基菌细胞壁的存在影响了SDS可溶性(新生)和SDS不溶性PG的合成。在两个循环时,与在无细胞壁存在下再活化但在有细胞壁存在下检测的膜相比,SDS可溶性PG的合成减少了70%,而SDS不溶性PG的合成增加了七倍。此外,在六个循环时,SDS不溶性PG合成的滞后时间从15分钟减少到5至7分钟。荷马氏加夫基菌的细胞壁不能被巨大芽孢杆菌的细胞壁或纤维素替代。除了这些影响外,在无细胞壁情况下冻融的膜孵育过程中,荷马氏加夫基菌或巨大芽孢杆菌的细胞壁或纤维素的存在使SDS不溶性PG的量增加了两倍。再活化的膜比分离的膜-细胞壁对青霉素(一种dd-羧肽酶抑制剂)和d-甲硫氨酸(一种ld-羧肽酶抑制剂)表现出更高的敏感性。由再活化系统合成的SDS不溶性PG的交联百分比为34%,这一数值与由分离的膜-细胞壁合成的聚合物所观察到的数值相似。一起冻融膜和细胞壁得到了一种密度不同于膜或细胞壁的复合物。因此,PG合成和加工的组装系统在由分离成分制备的膜和细胞壁复合物中得以重构。这种复合物是否具有在生物体中发现的膜与壁的确切相互关系尚未确定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ede7/216399/b2017af0de0c/jbacter00258-0111-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ede7/216399/b2017af0de0c/jbacter00258-0111-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ede7/216399/b2017af0de0c/jbacter00258-0111-a.jpg

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