Fox Stefan, Strasdeit Henry
Department of Bioinorganic Chemistry, Institute of Chemistry, University of HohenheimStuttgart, Germany.
Front Microbiol. 2017 Aug 25;8:1622. doi: 10.3389/fmicb.2017.01622. eCollection 2017.
The "Rare Earth" hypothesis-put forward by Ward and Brownlee in their 2000 book of the same title-states that prokaryote-type organisms may be common in the universe but animals and higher plants are exceedingly rare. If this idea is correct, the search for extraterrestrial life is essentially the search for microorganisms. Various indicators may be used to detect extant or extinct microbial life beyond Earth. Among them are chemical biosignatures, such as biomolecules and stable isotope ratios. The present minireview focuses on the major problems associated with the identification of chemical biosignatures. Two main types of misinterpretation are distinguished, namely false positive and false negative results. The former can be caused by terrestrial biogenic contaminants or by abiotic products. Terrestrial contamination is a common problem in space missions that search for biosignatures on other planets and moons. Abiotic organics can lead to false positive results if erroneously interpreted as biomolecules, but also to false negatives, for example when an abiotic source obscures a less productive biological one. In principle, all types of putative chemical biosignatures are prone to misinterpretation. Some, however, are more reliable ("stronger") than others. These include: (i) homochiral polymers of defined length and sequence, comparable to proteins and polynucleotides; (ii) enantiopure compounds; (iii) the existence of only a subset of molecules when abiotic syntheses would produce a continuous range of molecules; the proteinogenic amino acids constitute such a subset. These considerations are particularly important for life detection missions to solar system bodies such as Mars, Europa, and Enceladus.
“稀土”假说由沃德和布朗利在其2000年出版的同名书籍中提出,该假说认为原核生物类型的有机体在宇宙中可能很常见,但动物和高等植物却极其罕见。如果这一观点正确,那么寻找外星生命本质上就是寻找微生物。可以使用各种指标来检测地球以外现存或已灭绝的微生物生命。其中包括化学生物特征,如生物分子和稳定同位素比率。本微型综述聚焦于与化学生物特征识别相关的主要问题。区分出两种主要的错误解读类型,即假阳性和假阴性结果。前者可能由地球生物源污染物或非生物产物导致。在其他行星和卫星上寻找生物特征的太空任务中,地球污染是一个常见问题。如果将非生物有机物错误地解读为生物分子,就会导致假阳性结果,但也会导致假阴性结果,例如当一个非生物来源掩盖了一个产量较低的生物来源时。原则上,所有类型的假定化学生物特征都容易出现错误解读。然而,有些比其他的更可靠(“更强”)。这些包括:(i)具有确定长度和序列的同手性聚合物,类似于蛋白质和多核苷酸;(ii)对映体纯化合物;(iii)当非生物合成会产生一系列连续分子时,仅存在分子的一个子集;蛋白质原氨基酸就构成这样一个子集。这些考虑因素对于前往火星、木卫二和土卫二等同太阳系天体的生命探测任务尤为重要。