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A reverse genetic screen method to investigate lamb mortality in French Dairy Sheep

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A reverse genetic screen method to investigate lamb mortality in French Dairy Sheep

Lamb mortality poses significant challenges to agriculture, affecting animal health, welfare, and economic outcomes; early lamb losses are a key concern for sheep breeders. High mortality rates in the first month of life are attributable to a variety of environmental and other factors, and recessive deleterious genomic variants are known to segregate in livestock populations potentially causing lethality when homozygous.

The Small Ruminants Genomics team at INRAE, France is devoted to identifying genes and their polymorphisms underlying traits in sheep and goats and the understanding of the molecular mechanisms of their phenotypes. The team have developed a workflow for screening, identifying and validating for genetic variants associated with lamb mortality, applied in Manech Tete Rousse (MTR) and Lacaune dairy sheep breeds.

The group use a reverse genetic screen strategy to specifically identify recessive lethal variants. Initially, high-density SNP chips and WGS enable fine mapping of genomic regions and the identification of trait causal variants. The segregation of the variants is then studied in multiple sheep breeds and the lethal effect validated with controlled mating trials between heterozygous carriers. Specific variant genotyping assays are then performed using PACE PCR genotyping.

Work in recently published studies has identified causal recessive variants in three key genes linked to homozygous deficient haplotypes and associated with rearing loss in the studied breeds. By this approach, variants have also been identified in genes known to impact sheep morphological traits such as horns and coat colour.

References:

  • Ben Braiek et al. “A single base pair duplication in SLC33A1 gene causes fetal losses and neonatal lethality in Manech Tete Rousse dairy sheep.”bioRxiv (2023).
  • Ben Braiek et al. “Homozygous haplotype deficiency in Manech Tête Rousse dairy sheep revealed a nonsense variant in MMUT gene affecting newborn lamb viability.” bioRxiv (2023).
  • Ben Braiek et al. “A Nonsense Variant in CCDC65 Gene Causes Respiratory Failure Associated with Increased Lamb Mortality Lacaune Dairy Sheep.” Genes 13.1 (2022).

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Steve began his career in the Genetics Division of GlaxoSmithKline, as part of the team establishing GSK’s high-throughput core genotyping laboratory. Steve joined KBioscience when it was first founded in 2002 and was a key driver in taking the company from a small start-up to a multi-national service laboratory, quickly growing the company’s revenue to over $7.5M p.a. Following the acquisition of Kbioscience by LGC in 2011, Steve was appointed Global Director of Operations for LGC Genomics, responsible for over 100 staff in Europe and N. America, successfully elevating the genotyping products and service business. Steve held a crucial leadership role until he left in 2016. In 2017 Steve joined forces with John Holme to create 3CR Bioscience, a new company with a mission to deliver outstanding, customer-focused genotyping products with innovation and affordability at its core.
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John joined KBioscience shortly after it was founded, in 2003, and became Head of Technical Development, building the company’s genotyping and DNA extraction product portfolio and service delivery until 2011 when it was acquired by LGC. Post-acquisition, John was appointed Head of Technical Group for LGC Genomics, in charge of all Research & Development and Technical Support activities for the company. In this role John continued to build on the high-quality products and services provided to the companies growing customer base. During the 19 years John has worked in commercial R&D, he has co-invented numerous highly successful products including PACE®, ProbeSure, KASPâ„¢, KlearKall, KlearGene, KlearAmp and KlearTaqâ„¢, creating breakthrough offerings in genotyping and extraction and generating huge revenues for the companies he has worked in. In 2017, he joined forces with Steve Asquith and started 3CR Bioscience. John is dedicated to developing outstanding, innovative genotyping products and providing the very best technical support to customers globally.
Dr. Nisha JainOperations Director
Nisha has been innovating since the start of her career at Geneform Technologies developing Iso-thermal Genotyping Technologies. Nisha joined KBioscience in 2008, as Senior R&D Scientist and key account Technical Support Scientist, developing KASP and Klearkall performance and coinventing two further versions of KASP. Nisha has more than 15 years’ experience working in molecular biology and genotyping technologies, with extensive experience in the areas of R&D, Quality Assurance and Customer Technical Support. She has technically assisted many giants of the industry with their protocol development and troubleshooting and continues to deliver high-quality support and guidance. In 2018, Nisha joined 3CR Bioscience as Operations Director where she continues to develop PACE and ProbeSure for an increasing range of applications, and to grow 3CR Bioscience’s new product pipeline. Nisha is dedicated to developing outstanding, innovative genotyping products and providing the very best technical support to customers globally.
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For 20 years Nazma Saffin has worked and gained extensive expertise within the genotyping sector. Working at Kbioscience and then LGC, she has held operational leadership posts responsible for manufacturing and laboratory services. With experience of ISO 9001 implementation, production scale up and LEAN operations, Nazma has successfully led highly profitable production departments. Joining 3CR Bioscience in 2022, Nazma is committed to delivering operational excellence.
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After 8 years in The Royal Air Force, Jon moved to the Imperial Cancer Research Fund where he pioneered the use of ultra high-throughput genomic automation, capable of 46,000 PCRs per hour. In the 1990’s Jon joined GlaxoSmithKline, implementing a high-throughput genomics platform into their drug discovery pipeline. Whilst there he also developed acoustic mixing into compound management, becoming the gold standard across pharma. Jon developed the world’s first commercially viable 1536-well PCR plates, automated thermal & laser plate-sealer, plus automated liquid-handling & tip washing tools to reduce waste and costs. In 2002 Jon co-founded KBioscience with Phil Robinson, utilising ultra high-throughput PCR instrumentation & a suite of automation tools to create the company’s SNPline robotic platform, with a capacity of 250,000 PCRs/day. The business was underpinned by their ground-breaking patented genotyping chemistry, KASP™, which has over 10,000 scientific papers to date. In November 2022 Jon joined 3CR Bioscience acting as an advisor bringing his commercial and scientific experience to the company.