醋酸菌多相分类研究进展

醋酸菌是一大群革兰氏染色阴性、绝对好氧的细菌的总称, 能将乙醇或糖类不完全氧化为有机酸。醋酸菌的分类在近30年经历了很大变化, 早期的分类系统主要以表型和生化特征为基础。如今, 大多采用结合表型、化学分类法和基因型数据的多相分类法对醋酸菌进行分类。本文综述了醋酸菌的多相分类研究进展, 主要介绍了醋酸菌的现行分类情况及表型分类、化学分类和基因分型等方法在醋酸菌分类中的应用。     

葡糖杆菌属分类及其主要应用的研究进展

葡糖杆菌是醋酸菌科的一个重要属,与人类关系密切,该属中部分菌株在维生素C、米格列醇的工业生产及合成中起着重要作用;此外,该属菌株还能氧化葡萄糖生成葡糖酸盐和酮基葡糖酸等工业重要中间体。综述了葡糖杆菌的研究进展,主要介绍了葡糖杆菌的生理生化特征、分类进展及其主要应用,可以为广大醋酸菌研究者提供参考。     

Neokomagataea gen. nov., with Descriptions of Neokomagataea thailandica sp. nov. and Neokomagataea tanensis sp. nov., Osmotolerant Acetic Acid Bacteria of the α-Proteobacteria

Isolates AH11^T and AH13^T were isolated from flowers of lantana and candle bush respectively collected in Thailand. In phylogenetic trees based on 16S rRNA gene sequences, the two isolates formed an independent cluster, which was then connected to the type strain of Saccharibacter floricola. The calculated pair-wise 16S rRNA gene sequence similarities of isolate AH11^T were 95.7–92.3% to the type strains of the type species of the 12 genera of acetic acid bacteria. The DNA base composition was from 51.2 to 56.8 mol % G+C, with a range of 5.6 mol %. When isolate AH11^T was labeled, DNA-DNA similarities were 100, 12, 4, 5, and 4% respectively to isolates AH11^T and AH13^T and the type strains of Saccharibacter floricola, Gluconobacter oxydans, and Acetobacter aceti. The two isolates were non-motile and did not oxidize either acetate or lactate. No growth was found in the presence of 0.35% acetic acid w/v. The two isolates were not osmophilic but osmotolerant, produced 2,5-diketo-D-gluconate from D-glucose, and did not oxidize lactate, thus differing from strains of Saccharibacter floricola, which showed weak lactate oxidation. The two isolates contained unsaturated C_18:1ω7c fatty acid as the major fatty acid, and were unique in the presence of a considerable amount of straight-chain C_18:12OH fatty acid. Q-10 was present as the major isoprenoid quinone. Neokomagataea gen. nov. was proposed with the two species, Neokomagataea thailandica sp. nov. for isolate AH11^T (=BCC 25710 ^T =NBRC 106555^T), which has 56.8 mol % G+C, and Neokomagataea tanensis sp. nov. for isolate AH13^T (=BCC 25711^T=NBRC 106556^T), which has 51.2 mol % G+C.     

Gut compartments and ovary bacterial symbionts of the Sunn pest

The Sunn pest, Eurygaster integriceps (Hemiptera: Scutelleridae), is the severe pest of cereals, especially of wheat in many parts of the world. Many insect species, including the Sunn pest that feed solely on nutritionally restricted diets, harbor symbiotic microorganisms. In the current study, we isolated and identified the Sunn pest bacterial symbionts of gut fractions and ovary. The phylogenetic analysis indicated that Sunn pest gut bacterial symbionts are polyphyletic and contained a taxonomic diversity belonging to three different phyla, including Firmicutes, Tenericutes, and Proteobacteria. Firmicutes was represented by Enterococcus, Proteobacteria by Pantoea and Acetobacteraceae, and Tenericutes by Spiroplasma. We isolated and identified Enterococcus, Acetobacteraceae, Spiroplasma and Pantoea from Sunn pest different gut compartments, and Pantoea from ovaries. There was considerable overlap between recognized symbionts from the 2nd and 3rd midgut sections (Acetobacteraceae), the 4th midgut section and hindgut (Spiroplasma), and 4th midgut section and ovary (Pantoea). Niche heterogeneity within a microbial habitat of gut fractions resulted in colonizing and adaptation of various communities of symbionts in each fraction. The Sunn pest gut compartments and ovary symbionts have been demonstrated to be of multiple evolutionary origins. This diversity may be of great importance to the Sunn pest fitness and survival in various overwintering niches.     

Ameyamaea chiangmaiensis gen. nov., sp. nov., an Acetic Acid Bacterium in the α-Proteobacteria

Two isolates, AC04^T and AC05, were isolated from the flowers of red ginger collected in Chiang Mai, Thailand. In phylogenetic trees based on 16S rRNA gene sequences, the two isolates were included within a lineage comprised of the genera Acidomonas, Gluconacetobacter, Asaia, Kozakia, Swaminathania, Neoasaia, Granulibacter, and Tanticharoenia, and they formed an independent cluster along with the type strain of Tanticharoenia sakaeratensis. The calculated pair-wise sequence similarities of isolate AC04^T were 97.8–92.5% to the type strains of the type species of the 11 genera of acetic acid bacteria. The DNA base composition was 66.0–66.1 mol % G+C with a range of 0.1 mol %. A single-stranded, labeled DNA from isolate AC04^T presented levels of DNA-DNA hybridization of 100, 85, 4, and 3% respectively to DNAs from isolates AC04^T and AC05 and the type strains of Tanticharoenia sakaeratensis and Gluconacetobacter liquefaciens. The two isolates were unique morphologically in polar flagellation and physiologically in intense acetate oxidation to carbon dioxide and water and weak lactate oxidation. The intensity in acetate oxidation almost equaled that of the type strain of Acetobacter aceti. The two isolates had Q-10. Isolate AC04^T was discriminated from the type strains of the type species of the 11 genera by 16S rRNA gene restriction analysis using restriction endonucleases TaqI and Hin6I. The unique phylogenetic, genetic, morphological, physiological, and biochemical characteristics obtained indicate that the two isolates can be classified into a separate genus, and Ameyamaea chiangmaiensis gen. nov., sp. nov. is proposed. The type strain is isolate AC04^T (=BCC 15744^T, =NBRC 103196^T), which has a DNA G+C content of 66.0 mol %.