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盐土生古菌属(Haloterrigena)是一类生长在含有1.7~5.5 mol/L NaCl、17~60℃温度范围内的极端嗜盐古菌。自该属1999年被建立以来,目前已有10个种被有效发表。但是在基于16S rRNA或rpoB'基因的系统进化树上,盐土生古菌属物种常与碱线菌属(Natrinema)和嗜盐碱红菌属(Natronorubrum)的成员交叉聚类在一起;而且盐土生古菌属内各成员间的特征也不尽相同,如多数盐土生古菌属菌株生长pH范围6.0~9.0,最适pH 7.0~7.5,然而大庆盐土生古菌(Haloterrigena daqingensis)为该属的唯一嗜碱成员,生长pH在8.0~10.5,最适为pH 10.0;在化学分类特征方面,该属的多数菌株含有糖脂类型为双硫化二糖基二醚(disulfated diglycosyl diether,S2-DGD-1),然而伊斯帕尼亚盐土生古菌(Haloterrigena hispanica)菌株FP1含有S-DGD硫酸化二糖基二醚(sulfated diglycosyl diether)。鉴于该属存在的这些特殊特征,以及与碱线菌属和嗜盐碱红菌属在系统进化上的特殊关系,结合前期发表的该属的新种和相关文献资料,系统综述了盐土生古菌属的建立、分类学特征、生态分布、基因组信息等方面的研究进展,以期为盐土生古菌属已知种分类地位的确定、该属其他新分离菌株的分类鉴定、功能基因资源的挖掘与开发提供借鉴。 相似文献
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Qingtian Guan Xiaohan Guo Ting Han Mengwei Wei Meiling Jin Fan Zeng Lin Liu Zhe Li Yuhan Wang Gang-Won Cheong Shihong Zhang Baolei Jia 《Process Biochemistry》2013,48(5-6):878-884
Thermostable amylopullulanases can catalyse the hydrolysis of both α-1,4 and α-1,6 glucosidic bonds and are of considerable interest in the starch saccharification industry. In this study, the gene Apu-Tk encoding an extracellular amylopullulanase was cloned from an extremely thermophilic anaerobic archaeon Thermococcus kodakarensis KOD1. Apu-Tk encodes an 1100-amino acid protein with a 27-residue signal peptide, which has a predicted mass of 125 kDa after signal peptide cleavage. Sequence alignments showed that Apu-Tk contains the five regions conserved in all GH57 family proteins. Full-length Apu-Tk was expressed in Escherichia coli and purified to homogeneity. The purified enzyme displayed both pullulanase and amylase activity. The optimal temperature for Apu-Tk to hydrolyse pullulan and soluble starch was >100 °C. Apu-Tk was also active at a broad range of pH (4–7), with an optimum pH of ~5.0–5.5. Apu-Tk also retained >30% of its original activity and partially folded globular structure in the presence of 8% SDS or 10% β-mercaptoethanol. The high yield, broad pH range, and stability of Apu-Tk implicate it as a potential enzyme for industrial applications. 相似文献
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《Electromagnetic biology and medicine》2013,32(4):436-448
The aim of the study was to investigate the effects of extremely low-frequency electric field (ELF EF) on visual evoked potential (VEP), thiobarbituric acid reactive substances (TBARS), total antioxidant status (TAS), total oxidant status (TOS), and oxidant stress index (OSI). Thirty female Wistar rats, aged 3 months, were divided into three equal groups: Control (C), the group exposed to EF at 12 kV/m strength (E12), and the group exposed to EF at 18 kV/m strength (E18). Electric field was applied to the E12 and E18 groups for 14 days (1 h/day). Brain and retina TBARS, TOS, and OSI were significantly increased in the E12 and E18 groups with respect to the control group. Also, TBARS levels were significantly increased in the E18 group compared with the E12 group. Electric fields significantly decreased TAS levels in both brain and retina in E12 and E18 groups with respect to the control group. All VEP components were significantly prolonged in rats exposed to electric fields compared to control group. In addition, all latencies of VEP components were increased in the E18 group with respect to the E12 group. It is conceivable to suggest that EF-induced lipid peroxidation may play an important role in changes of VEP parameters. 相似文献
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《Electromagnetic biology and medicine》2013,32(2):67-73
In the last years, the effect of extremely low-frequency electromagnetic fields (ELF-EMF) on the activity of different enzymes were investigated. Only the membrane-anchored enzymes did decrease their activity, up to 50%. In this work, the effect of ELF-EMF on bovine lung membrane carbonic anhydrase (CA) were studied. Carbonic anhydrases are a family of 14 zinc-containing isozymes catalyzing the reversible reaction: CO2+H2O = HCO3? +H+. CA differ in catalytic activity and subcellular localization. CA IV, IX, XII, XIV, and XV are membrane bound. In particular, CA IV, which is expressed in the lung, is glycosyl phosphatidyl inositol-linked to the membrane, therefore it was a candidate to inhibition by ELF-EMF. Exposure to the membranes to a field of 75 Hz frequency and different amplitudes caused CA activity to a reproducible decrease in enzymatic activity by 17% with a threshold of about 0.74 mT. The decrease in enzymatic activity was independent of the time of permanence in the field and was completely reversible. When the source of enzyme was solubilized with Triton, the field lost its effect on CA enzymatic activity, suggesting a crucial role of the membrane, as well as of the particular linkage of the enzyme to it, in determining the conditions for CA inactivation. Results are discussed in terms of the possible physiologic effects of CA inhibition in target organs. 相似文献
18.
Tatsuya Ohshida Junji Hayashi Kazunari Yoneda Toshihisa Ohshima Haruhiko Sakuraba 《Proteins》2020,88(5):669-678
A gene encoding galactose 1-phosphate uridylyltransferase (GalT) was identified in the hyperthermophilic archaeon Pyrobaculum aerophilum. The gene was overexpressed in Escherichia coli, after which its product was purified and characterized. The expressed enzyme was highly thermostable and retained about 90% of its activity after incubation for 10 minutes at temperatures up to 90°C. Two different crystal structures of P. aerophilum GalT were determined: the substrate-free enzyme at 2.33 Å and the UDP-bound H140F mutant enzyme at 1.78 Å. The main-chain coordinates of the P. aerophilum GalT monomer were similar to those in the structures of the E. coli and human GalTs, as was the dimeric arrangement. However, there was a striking topological difference between P. aerophilum GalT and the other two enzymes. In the E. coli and human enzymes, the N-terminal chain extends from one subunit into the other and forms part of the substrate-binding pocket in the neighboring subunit. By contrast, the N-terminal chain in P. aerophilum GalT extends to the substrate-binding site in the same subunit. Amino acid sequence alignment showed that a shorter surface loop in the N-terminal region contributes to the unique topology of P. aerophilum GalT. Structural comparison of the substrate-free enzyme with UDP-bound H140F suggests that binding of the glucose moiety of the substrate, but not the UDP moiety, gives rise to a large structural change around the active site. This may in turn provide an appropriate environment for the enzyme reaction. 相似文献
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Akiko Kita Asako Kishimoto Takahiro Shimosaka Hiroya Tomita Yuusuke Yokooji Tadayuki Imanaka Haruyuki Atomi Kunio Miki 《Proteins》2020,88(5):718-724
The coenzyme A biosynthesis pathways in most archaea involve two unique enzymes, pantoate kinase and phosphopantothenate synthetase, to convert pantoate to 4′-phosphopantothenate. Here, we report the first crystal structure of pantoate kinase from the hyperthermophilic archaeon, Thermococcus kodakarensis and its complex with ATP and a magnesium ion. The electron density for the adenosine moiety of ATP was very weak, which most likely relates to its broad nucleotide specificity. Based on the structure of the active site that contains a glycerol molecule, the pantoate binding site and the roles of the highly conserved residues are suggested. 相似文献
20.
Yuri I. Wolf Eugene V. Koonin 《BioEssays : news and reviews in molecular, cellular and developmental biology》2013,35(9):829-837
A common belief is that evolution generally proceeds towards greater complexity at both the organismal and the genomic level, numerous examples of reductive evolution of parasites and symbionts notwithstanding. However, recent evolutionary reconstructions challenge this notion. Two notable examples are the reconstruction of the complex archaeal ancestor and the intron‐rich ancestor of eukaryotes. In both cases, evolution in most of the lineages was apparently dominated by extensive loss of genes and introns, respectively. These and many other cases of reductive evolution are consistent with a general model composed of two distinct evolutionary phases: the short, explosive, innovation phase that leads to an abrupt increase in genome complexity, followed by a much longer reductive phase, which encompasses either a neutral ratchet of genetic material loss or adaptive genome streamlining. Quantitatively, the evolution of genomes appears to be dominated by reduction and simplification, punctuated by episodes of complexification. 相似文献