重新调整用途
废品
领域(数学分析)
联想(心理学)
化学
磷脂酶A2
计算生物学
生物化学
细胞生物学
生物
酶
生态学
数学分析
有机化学
哲学
认识论
数学
作者
Matthew Cordes,Alexandra K Sundman,H. Fox,Greta J. Binford
摘要
Abstract The glycerophosphodiester phosphodiesterase (GDPD)‐like SMaseD/PLD domain family, which includes phospholipase D (PLD) toxins in recluse spiders and actinobacteria, evolved anciently in bacteria from the GDPD. The PLD enzymes retained the core (β/α) 8 barrel fold of GDPD, while gaining a signature C‐terminal expansion motif and losing a small insertion domain. Using sequence alignments and phylogenetic analysis, we infer that the C‐terminal motif derives from a segment of an ancient bacterial PLAT domain. Formally, part of a protein containing a PLAT domain repeat underwent fusion to the C terminus of a GDPD barrel, leading to attachment of a segment of a PLAT domain, followed by a second complete PLAT domain. The complete domain was retained only in some basal homologs, but the PLAT segment was conserved and repurposed as the expansion motif. The PLAT segment corresponds to strands β7–β8 of a β‐sandwich, while the expansion motif as represented in spider PLD toxins has been remodeled as an α‐helix, a β‐strand, and an ordered loop. The GDPD‐PLAT fusion led to two acquisitions in founding the GDPD‐like SMaseD/PLD family: (1) a PLAT domain that presumably supported early lipase activity by mediating membrane association, and (2) an expansion motif that putatively stabilized the catalytic domain, possibly compensating for, or permitting, loss of the insertion domain. Of wider significance, messy domain shuffling events can leave behind scraps of domains that can be salvaged, remodeled, and repurposed.
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