Abstract

BackgroundSegmental duplications are an abundant source for novel gene functions and evolutionary adaptations. This mechanism of generating novelty was very active during the evolution of primates particularly in the human lineage. Here, we characterize the evolution and function of the SPATA31 gene family (former designation FAM75A), which was previously shown to be among the gene families with the strongest signal of positive selection in hominoids. The mouse homologue for this gene family is a single copy gene expressed during spermatogenesis.ResultsWe show that in primates, the SPATA31 gene duplicated into SPATA31A and SPATA31C types and broadened the expression into many tissues. Each type became further segmentally duplicated in the line towards humans with the largest number of full-length copies found for SPATA31A in humans. Copy number estimates of SPATA31A based on digital PCR show an average of 7.5 with a range of 5–11 copies per diploid genome among human individuals. The primate SPATA31 genes also acquired new protein domains that suggest an involvement in UV response and DNA repair. We generated antibodies and show that the protein is re-localized from the nucleolus to the whole nucleus upon UV-irradiation suggesting a UV damage response. We used CRISPR/Cas mediated mutagenesis to knockout copies of the gene in human primary fibroblast cells. We find that cell lines with reduced functional copies as well as naturally occurring low copy number HFF cells show enhanced sensitivity towards UV-irradiation.ConclusionThe acquisition of new SPATA31 protein functions and its broadening of expression may be related to the evolution of the diurnal life style in primates that required a higher UV tolerance. The increased segmental duplications in hominoids as well as its fast evolution suggest the acquisition of further specific functions particularly in humans.

Highlights

  • Segmental duplications are an abundant source for novel gene functions and evolutionary adaptations

  • Note that the annotation around SPATA31A5 and SPATA31A7 is uncertain because short non-sequenced regions interrupt the region

  • The SPATA31 gene family shows similarities to Epstein Barr Virus (EBV)–BPLF1 and CRY2 proteins (Additional File 6), and we found through antibody staining partial co-localization with CRY2 protein (Additional File 7)

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Summary

Introduction

Segmental duplications are an abundant source for novel gene functions and evolutionary adaptations. This mechanism of generating novelty was very active during the evolution of primates in the human lineage. The generic term “segmental duplications” has been coined for this form of duplication, and it is thought to have been active in the primate lineage—especially in humans [2]. These duplications are associated with rapid structural changes, chromosomal instability and evolutionary rearrangements. 430 delimited blocks of the human genome have been identified as regions for multiple duplications during hominoid evolution. Segmental duplications comprise about 5% of the human genome [2] and [3]

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