Schreiber Jürg V, Frackenpohl Jens, Moser Frank, Fleischmann Thomas, Kohler Hans-Peter E, Seebach Dieter
Laboratorium für Organische Chemie der Eidgenössischen Technischen Hochschule, Wolfgang-Pauli-Strasse 10 8093 Zürich, Switzerland.
Chembiochem. 2002 May 3;3(5):424-32. doi: 10.1002/1439-7633(20020503)3:5<424::AID-CBIC424>3.0.CO;2-0.
A consortium of microorganisms was established that was able to grow with the beta-tripeptide H-beta-HVal-beta-HAla-beta-HLeu-OH, with the beta-dipeptide H-beta-HAla-beta-HLeu-OH, and with the beta-amino acids H-beta-HAla-OH, H-beta-HVal-OH, and H-beta-HLeu-OH as the sole carbon and energy sources. This growth was achieved after several incubation-transfer cycles with the beta-tripeptide as the substrate. During degradation of the beta-tripeptide H-beta-HVal-beta-HAla-beta-HLeu-OH, the temporary formation of a metabolite was observed. The metabolite was identified as the beta-dipeptide H-beta-HAla-beta-HLeu-OH by nuclear magnetic resonance spectroscopy and mass spectrometry. This result indicates that in the course of the degradation of the beta-tripeptide, the N-terminal beta-HVal residue was cleaved off by a not yet known mechanism. During the subsequent degradation of the beta-dipeptide, formation of additional metabolites could not be detected. The growth-yield coefficients Y(x/s) for growth on the beta-di- and beta-tripeptide both had a value of 0.45. When a 1:1 mixture of the beta-tripeptide and the corresponding alpha-tripeptide H-Val-Ala-Leu-OH was added to the enrichment culture, the alpha-peptide was completely utilized in six days and thereafter growth of the culture stopped. This result indicates that even in beta-peptide enrichment cultures, alpha-peptides are the preferred substrates. Our experiments clearly show for the first time that beta-peptides and beta-amino acids are amenable to biodegradation and that a microbial consortium was able to utilize these compounds as sole carbon and energy sources. Furthermore, the preparation of beta-amino acids, of derivatives thereof, and of beta-di- and beta-tripeptides is described.
构建了一个微生物联合体,该联合体能够以β-三肽H-β-HVal-β-HAla-β-HLeu-OH、β-二肽H-β-HAla-β-HLeu-OH以及β-氨基酸H-β-HAla-OH、H-β-HVal-OH和H-β-HLeu-OH作为唯一碳源和能源进行生长。以β-三肽为底物经过几个培养-转移循环后实现了这种生长。在β-三肽H-β-HVal-β-HAla-β-HLeu-OH的降解过程中,观察到一种代谢物的临时形成。通过核磁共振光谱和质谱鉴定该代谢物为β-二肽H-β-HAla-β-HLeu-OH。这一结果表明,在β-三肽的降解过程中,N端的β-HVal残基通过一种未知机制被切割掉。在随后β-二肽的降解过程中,未检测到其他代谢物的形成。以β-二肽和β-三肽为底物生长的生长得率系数Y(x/s)均为0.45。当向富集培养物中添加β-三肽和相应的α-三肽H-Val-Ala-Leu-OH的1:1混合物时,α-肽在六天内被完全利用,此后培养物的生长停止。这一结果表明,即使在β-肽富集培养物中,α-肽也是首选底物。我们的实验首次清楚地表明,β-肽和β-氨基酸易于生物降解,并且一个微生物联合体能够将这些化合物作为唯一碳源和能源加以利用。此外,还描述了β-氨基酸、其衍生物以及β-二肽和β-三肽的制备方法。
