Defining cat mitogenome variation and accounting for numts via multiplex amplification and Nanopore sequencing

Emily C Patterson, Gurdeep Matharu Lall, Rita Neumann, Barbara Ottolini, Federico Sacchini, Aiden P Foster, Mark A Jobling*, Jon H Wetton*

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

3 Citations (Scopus)

Abstract

Hair shed by domestic cats is a potentially useful source of forensic evidence. Analysable hair DNA is predominantly mitochondrial, but the recent domestication history of cats means that mtDNA diversity is low. A 402-bp control region segment is usually sequenced, defining only a small number of distinct haplotypes in populations. Previously, we used a long-amplicon approach to sequence whole mitogenomes in a sample of blood DNAs from 119 UK cats, greatly increasing observed diversity and reducing random match probabilities. To exploit this variation for forensic analysis, we here describe a multiplex system that amplifies the cat mitogenome in 60 overlapping amplicons of mean length 360 bp, followed by Nanopore sequencing. Variants detected in multiplex sequence data from unrooted hair completely mirror those from long-amplicon data from blood from the same individuals. However, applying the multiplex to matched blood DNA reveals additional sequence variants which derive from the major feline nuclear mitochondrial insertion sequence (numt), which covers 7.9 kb of the 17-kb mitogenome and exists in multiple tandem copies. We use long-amplicon Nanopore sequencing to investigate numt variation in a set of cats, together with an analysis of published genome sequences, and show that numt arrays are variable in both structure and sequence, thus providing a potential source of uncertainty when nuclear DNA predominates in a sample. Forensic application of the multiplex was demonstrated by matching hairs from a cat with skeletal remains from its putative mother, both of which shared a globally common haplotype at the control region. The random match probability in this case with the CR 402-bp segment was 0.21 and this decreased to 0.03 when considering the whole mitogenome. The developed multiplex and sequencing approach, when applied to cat hair where nuclear DNA is scarce, can provide a reliable and highly discriminating source of forensic genetic evidence from a single hair. The confounding effect of numt co-amplification in degraded samples where mixed sequences are observed can be mitigated by variant phasing, and by comparison with numt sequence diversity data, such as those presented here.

Original languageEnglish
Article number102944
JournalForensic Science International: Genetics
Volume67
Early online date6 Oct 2023
DOIs
Publication statusPublished - 1 Nov 2023

Bibliographical note

Funding Information:
ECP was supported by a BBSRC-MIBTP (grant no. BB/M01116X/1 ) iCASE PhD studentship, co-sponsored by Twycross Zoo (East Midland Zoological Society) and Zoological Society of London . We thank Lisa Gillespie for assistance, and Jane and Andrew Elliot for financial support. We gratefully acknowledge colleagues who contributed DNA samples. This research used the SPECTRE High Performance Computing Facility at the University of Leicester for data analysis.

Publisher Copyright:
© 2023 The Authors

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