南太平洋环流平流表层水细菌关键菌群的生态分化

Monike Oggerin, Tomeu Viver, Jan Brüwer, Daniela Voß, Marina García-Llorca, Oliver Zielinski, Luis H Orellana, Bernhard M Fuchs
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摘要

南太平洋环流(SPG)表面是地球上最恶劣的海洋栖息地之一,其特点是太阳辐射强、营养物质极度匮乏和生产力低下。在 SO-245 "UltraPac "号航次穿越超低营养的南太平洋环流中心期间,通过荧光原位杂交检测到海洋α-蛋白细菌群 AEGEAN169,其相对丰度占最上层水层微生物群落总量的 6%,有两个不同的种群(Candidatus Nemonibacter 和 Ca. Indicimonas)。分裂细胞的高频率和高转录水平表明,这两个支系可能都具有高度的新陈代谢活性。对 AEGEAN169 进行的元基因组和元转录本组比较分析表明,与它们的竞争者 SAR11、SAR86、SAR116 和 Prochlorococcus 相比,AEGEAN169 对这种极端环境具有微妙而独特的代谢适应性。AEGEAN169 和 AEGEAN169 支系的预测蛋白中转运体的比例最高(分别为 9.5% 和 10.6%)。特别是,ABC 转运体的高表达量与蛋白酶和检测到的分解代谢途径相结合,表明这两个 AEGEAN169 支系都具有潜在的清除生活方式。虽然两个 AEGEAN169 支系都可能具有利用膦酸盐作为磷源的基因组潜能,但它们在碳和氮的代谢途径上有所不同。Ca.Nemonibacter 可能使用甘氨酸-甜菜碱,而 Ca.Indicimonas 则可能分解尿素、肌酸和岩藻糖。总之,这两个支系不同的潜在代谢策略表明,它们都能很好地适应资源有限的条件,并能与 SPG 地表水最上层的其他优势微生物支系很好地竞争。
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Niche differentiation within bacterial key-taxa in stratified surface waters of the Southern Pacific Gyre
One of the most hostile marine habitats on Earth is the surface of the South Pacific Gyre (SPG), characterized by high solar radiation, extreme nutrient depletion and low productivity. During the SO-245 “UltraPac” cruise through the center of the ultra-oligotrophic SPG, the marine alphaproteobacterial group AEGEAN169 was detected by fluorescence in situ hybridization at relative abundances up to 6% of the total microbial community in the uppermost water layer, with two distinct populations (Candidatus Nemonibacter and Ca. Indicimonas). The high frequency of dividing cells combined with high transcript levels, suggest that both clades may be highly metabolically active. Comparative metagenomic and metatranscriptomic analyses of AEGEAN169 revealed that they encoded subtle but distinct metabolic adaptions to this extreme environment in comparison to their competitors SAR11, SAR86, SAR116, and Prochlorococcus. Both AEGEAN169 clades had the highest percentage of transporters per predicted proteins (9.5 and 10.6%, respectively). In particular, the high expression of ABC transporters in combination with proteorhodopsins and the catabolic pathways detected, suggest a potential scavenging lifestyle for both AEGEAN169 clades. Although both AEGEAN169 clades may share the genomic potential to utilize phosphonates as a phosphorus source, they differ in their metabolic pathways for carbon and nitrogen. Ca. Nemonibacter potentially use glycine-betaine, whereas Ca. Indicimonas may catabolize urea, creatine, and fucose. In conclusion, the different potential metabolic strategies of both clades suggest that both are well adapted to thrive resource-limited conditions and compete well with other dominant microbial clades in the uppermost layers of SPG surface waters.
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