Allewalt Jessica P, Bateson Mary M, Revsbech Niels Peter, Slack Kimberly, Ward David M
Land Resources and Environmental Sciences, Montana State University, P.O. Box 3120, Bozeman, MT 59717-3120, USA.
Appl Environ Microbiol. 2006 Jan;72(1):544-50. doi: 10.1128/AEM.72.1.544-550.2006.
Previous molecular analysis of the Octopus Spring cyanobacterial mat revealed numerous genetically distinct 16S rRNA sequences from predominant Synechococcus populations distantly related to the readily cultivated unicellular cyanobacterium Synechococcus lividus. Patterns in genotype distribution relative to temperature and light conditions suggested that the organisms contributing these 16S rRNA sequences may fill distinct ecological niches. To test this hypothesis, Synechococcus isolates were cultivated using a dilution and filtration approach and then shown to be genetically relevant to natural mat populations by comparisons of similarities of 16S rRNA genes and 16S-23S internal transcribed spacer (ITS) regions. Most isolates were identical or nearly identical at both loci to predominant mat genotypes; others showed 1- to 2-nucleotide differences at the 16S rRNA locus and even greater difference in ITS sequences. Isolates with predominant mat genotypes had distinct temperature ranges and optima for growth that were consistent with their distributions in the mat. Isolates with genotypes not previously detected or known to be predominant in the mat exhibited temperature ranges and optima that were not representative of predominant mat populations and also grew more slowly. Temperature effects on photosynthesis did not reflect temperature relations for growth. However, the isolate with the highest temperature optimum and upper limit was capable of performing photosynthesis at a higher temperature than other isolates. Growth rate and photosynthetic responses provided evidence for light acclimation but evidence of, at best, only subtle light adaptation.
先前对章鱼泉蓝细菌席的分子分析显示,从与易于培养的单细胞蓝细菌蓝纤维藻远缘相关的主要聚球藻种群中发现了许多遗传上不同的16S rRNA序列。相对于温度和光照条件的基因型分布模式表明,贡献这些16S rRNA序列的生物体可能占据不同的生态位。为了验证这一假设,使用稀释和过滤方法培养了聚球藻分离株,然后通过比较16S rRNA基因和16S - 23S内部转录间隔区(ITS)区域的相似性,证明它们与天然席种群在遗传上相关。大多数分离株在这两个位点与主要的席基因型相同或几乎相同;其他分离株在16S rRNA位点显示出1至2个核苷酸的差异,ITS序列差异更大。具有主要席基因型的分离株具有与它们在席中的分布一致的不同温度范围和最佳生长温度。具有以前未检测到或已知在席中不占主导地位的基因型的分离株表现出的温度范围和最佳温度并不代表主要的席种群,并且生长也更慢。温度对光合作用的影响并未反映出其与生长的温度关系。然而,具有最高最佳温度和上限的分离株能够在比其他分离株更高的温度下进行光合作用。生长速率和光合反应提供了光适应的证据,但充其量只是微妙的光适应证据。