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991.
Ying Wang Li‐Ming Zhao Feng‐Jie Fang Ji‐Cheng Liao Nai‐Fa Liu 《Biological journal of the Linnean Society. Linnean Society of London》2013,110(2):362-383
The phylogeographical patterns and demographic history of mitochondrial DNA (cytochrome b, N = 327; D‐loop, N = 252) and nuclear DNA (IRBP gene, N = 235) haplotypes were studied for the Meriones meridianus complex in northern China, a desert‐dwelling gerbil species complex. The phylogenetic analyses, which were performed on the separate and combined (mitochondrial + nuclear) datasets, revealed two divergent clades (Clade A and Clade B) corresponding to distinct geographical regions. Clade A contained the haplotypes found mostly in individuals from the Tianshan Mountains area. Clade B contained haplotypes from populations located in other deserts in northern China. The divergence times indicated that the history of the M. meridianus complex was influenced by the uplift of the Tianshan Mountains and climate‐induced habitat fluctuations. In the Pleistocene, the expansion of forests and grasslands during interglacial period led to the isolation of the M. meridianus complex, which preferred to inhabit deserts. Hence, long geological isolation and the M. meridianus complex adaptation to local ecological conditions led to its genetic divergence. Clade A had long‐lasting demographic stability, most likely because the populations of this clade remained in a stable desert environment for a long time. However, the extension of other deserts and disappearance of palaeolakes during the last glacial period resulted in demographic expansion of Clade B. Furthermore, our genetic data indicated that two subspecies may exist within the M. meridianus complex. © 2013 The Linnean Society of London, Biological Journal of the Linnean Society, 2013, 110 , 362–383. 相似文献
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993.
994.
Jing Yang Chao Wang Chang Shu Li Liu Jianing Geng Songnian Hu Jie Feng 《Microbial ecology》2013,65(4):975-981
The ocean is a natural habitat for antibiotic-producing bacteria, and marine aquaculture introduces antibiotics into the ocean to treat infections and improve aquaculture production. Studies have shown that the ocean is an important reservoir of antibiotic resistance genes. However, there is a lack of understanding and knowledge about the clinical importance of the ocean resistome. We investigated the relationship between the ocean bacterial resistome and pathogenic resistome. We applied high-throughput sequencing and metagenomic analyses to explore the resistance genes in bacterial plasmids from marine sediments. Numerous putative resistance determinants were detected among the resistance genes in the sediment bacteria. We also found that several contigs shared high identity with transposons or plasmids from human pathogens, indicating that the sediment bacteria recently contributed or acquired resistance genes from pathogens. Marine sediment bacteria could play an important role in the global exchange of antibiotic resistance. 相似文献
995.
996.
Boyang Cao Fangfang Yao Xiangqian Liu Lu Feng Lei Wang 《Applied and environmental microbiology》2013,79(21):6647-6654
Legionella is ubiquitous in many environments. At least 50 species and 70 serogroups of the Gram-negative bacterium have been identified. Of the 50 species, 20 are pathogenic, and Legionella pneumophila is responsible for the great majority (approximately 90%) of the Legionnaires'' disease cases that occur. Furthermore, of the 15 L. pneumophila serogroups identified, O1 alone causes more than 84% of the Legionnaires'' disease cases that occur worldwide. Rapid and reliable assays for the detection and identification of L. pneumophila in water, environmental, and clinical samples are in great demand. L. pneumophila bacteria are traditionally identified by their O antigens by immunological methods. We have recently developed an O serogroup-specific DNA microarray for the detection of all 15 distinct O-antigen forms of L. pneumophila, including serogroups O1 to O15. A total of 35 strains were used to verify the specificity of the microarray, including 15 L. pneumophila O-antigen standard reference strains and seven L. pneumophila clinical isolates as target strains, seven reference strains of other non-pneumophila Legionella species as closely related strains, and six non-Legionella bacterial species as nonrelated strains. The detection sensitivity was 1 ng of genomic DNA or 0.4 CFU/ml in water samples with filter enrichment and plate culturing. This study demonstrated that the microarray allows specific, sensitive, and reproducible detection of L. pneumophila serogroups. To the best of our knowledge, this is the first report of a microarray serotyping method for all 15 distinct O-antigen forms of L. pneumophila. 相似文献
997.
998.
Guo-peng Miao Chuan-shu Zhu Jun-tao Feng Juan Han Xiao-Wei Song Xing Zhang 《Plant Cell, Tissue and Organ Culture》2013,112(1):109-116
The relationships between aggregate cell types, cell growth, and the triptolide, wilforgine, and wilforine content in aggregate cell suspension cultures of Tripterygium wilfordii Hook. f. were examined. Aggregate cells larger than 2?mm grew quickly and constituted the majority of the white aggregates. The accumulation of triptolide was strongly correlated with the size of the aggregates and the length of the culture period. The aggregates 0.5?C2?mm in diameter accumulated higher triptolide content than those with other sizes throughout the culture. However, the size of the aggregate cells did not significantly affect on the wilforgine and wilforine content. Two other kinds of aggregate cells, the brown and green aggregate cells, also formed in the suspension cultures. The smallest aggregates (0.1?C0.5?mm) had a lower biomass and growth rate and had more chloroplasts and higher alkaloid content. The results of this study can be used to improve the selection process for the mass production of triptolide, wilforgine, and wilforine from cell suspension cultures. 相似文献
999.
Chao-Hong Feng Zhen-Hua Cui Bai-Quan Li Long Chen Yan-Li Ma Yan-Hua Zhao Qiao-Chun Wang 《Plant Cell, Tissue and Organ Culture》2013,112(3):369-378
A simple and efficient cryopreservation protocol using encapsulation-dehydration was established for in vitro-grown shoot-tips of apple ‘Gala’ (Malus × domestica Borkh.). Shoot-tips, of 2.0 mm in length and with 5–6 leaf primordia, excised from 4-week-old shoot stock cultures, without cold-hardening, were encapsulated into beads, each being about 5 mm in diameter and containing a single shoot-tip. The beads were precultured on MS medium containing 0.5 M sucrose for 7 days. The precultured beads were dehydrated by air-drying to reduce the water content of the beads to about 22–20 % in 5–7 h, followed by a direct immersion in liquid nitrogen for 1 h. Frozen shoot-tips were re-warmed in a water bath at 38 °C for 2 min and post-cultured on a recovery medium for shoot regrowth. This protocol was successfully applied to four Malus species and one hybrid, among which M. micromalus and M. robusta are wild species native to China. The highest and lowest shoot regeneration rates were found in ‘Gala’ (75 %) and ‘Wangshanhong’ (36 %), with a mean shoot regrowth rate of 61 % attained for the seven Malus genotypes tested. Histological studies revealed that shoots could be regenerated in cryopreserved shoot-tips only when many cells in the leaf primordia and most of the cells in the apical dome survived following cryopreservation. Morphologies of the regenerated plantlets were identical to those from the in vitro stock cultures. Therefore, the encapsulation-dehydration procedure developed in the present study should provide a technical support for setting-up Malus cryo-banking in China. 相似文献
1000.
Guang-can Zhou Ying Wang Shan Zhai Feng Ge Zhong-hua Liu Yi-jun Dai Sheng Yuan Jun-yi Hou 《Applied microbiology and biotechnology》2013,97(9):4065-4074
Thiamethoxam (THIA), a second generation neonicotinoid insecticide in the thianicotinyl subclass, is used worldwide. Environmental studies revealed that microbial degradation is the major mode of removal of this pesticide from soil. However, microbial transformation of THIA is poorly understood. In the present study, we isolated a bacterium able to degrade THIA from rhizosphere soil. The bacterium was identified as Ensifer adhaerens by its morphology and 16S ribosomal DNA sequence analysis. High-performance liquid chromatography and mass spectrometry analysis suggested that the major metabolic pathway of THIA in E. adhaerens TMX-23 involves the transformation of its N-nitroimino group (=N–NO2) to N-nitrosoimino (=N–NO) and urea (=O) metabolites. E. adhaerens TMX-23 is a nitrogen-fixing bacterium harboring two types of nifH genes in its genome, one of which is 98 % identical to the nifH gene in the cyanobacterium Calothrix sp. MCC-3A. E. adhaerens TMX-23 released various plant-growth-promoting substances including indole-3-acetic acid, exopolysaccharides, ammonia, HCN, and siderophores. Inoculation of E. adhaerens TMX-23 onto soybean seeds (Glycine max L.) with NaCl at 50, 100, or 154 mmol/L increased the seed germination rate by 14, 21, and 30 %, respectively. THIA at 10 mg/L had beneficial effects on E. adhaerens TMX-23, enhancing growth of the bacterium and its production of salicylic acid, an important plant phytohormone associated with plant defense responses against abiotic stress. The nitrogen-fixing and plant-growth-promoting rhizobacterium E. adhaerens TMX-23, which is able to degrade THIA, has the potential for bioaugmentation as well as to promote growth of field crops in THIA-contaminated soil. 相似文献