Lonhienne T, Mavromatis K, Vorgias C E, Buchon L, Gerday C, Bouriotis V
Laboratory of Biochemistry, Institute of Chemistry B6, University of Liege, B-4000 Liege, Belgium.
J Bacteriol. 2001 Mar;183(5):1773-9. doi: 10.1128/JB.183.5.1773-1779.2001.
Arthrobacter sp. strain TAD20, a chitinolytic gram-positive organism, was isolated from the sea bottom along the Antarctic ice shell. Arthrobacter sp. strain TAD20 secretes two major chitinases, ChiA and ChiB (ArChiA and ArChiB), in response to chitin induction. A single chromosomal DNA fragment containing the genes coding for both chitinases was cloned in Escherichia coli. DNA sequencing analysis of this fragment revealed two contiguous open reading frames coding for the precursors of ArChiA (881 amino acids [aa]) and ArChiB (578 aa). ArChiA and ArChiB are modular enzymes consisting of a glycosyl-hydrolase family 18 catalytic domain as well as two and one chitin-binding domains, respectively. The catalytic domain of ArChiA exhibits 55% identity with a chitodextrinase from Vibrio furnissii. The ArChiB catalytic domain exhibits 33% identity with chitinase A of Bacillus circulans. The ArChiA chitin-binding domains are homologous to the chitin-binding domain of ArChiB. ArChiA and ArChiB were purified to homogeneity from the native Arthrobacter strain and partially characterized. Thermal unfolding of ArChiA, ArChiB, and chitinase A of Serratia marcescens was studied using differential scanning calorimetry. ArChiA and ArChiB, compared to their mesophilic counterpart, exhibited increased heat lability, similar to other cold-adapted enzymes.
节杆菌属菌株TAD20是一种能分解几丁质的革兰氏阳性菌,从南极冰壳沿线的海底分离得到。节杆菌属菌株TAD20在几丁质诱导下分泌两种主要的几丁质酶,ChiA和ChiB(ArChiA和ArChiB)。一个包含编码这两种几丁质酶基因的单一染色体DNA片段被克隆到大肠杆菌中。对该片段的DNA测序分析揭示了两个连续的开放阅读框,分别编码ArChiA(881个氨基酸[aa])和ArChiB(578个aa)的前体。ArChiA和ArChiB是模块化酶,分别由一个糖基水解酶家族18催化结构域以及两个和一个几丁质结合结构域组成。ArChiA的催化结构域与弗氏弧菌的壳糊精酶具有55%的同一性。ArChiB催化结构域与环状芽孢杆菌的几丁质酶A具有33%的同一性。ArChiA的几丁质结合结构域与ArChiB的几丁质结合结构域同源。ArChiA和ArChiB从天然节杆菌菌株中纯化至同质,并进行了部分特性分析。使用差示扫描量热法研究了粘质沙雷氏菌的ArChiA、ArChiB和几丁质酶A的热变性。与它们的嗜温对应物相比,ArChiA和ArChiB表现出更高的热不稳定,类似于其他冷适应酶。