The Future of Livestock Management: A Review of Real-Time Portable Sequencing Applied to Livestock

Lamb, Harrison J.; Hayes, Ben J.; Nguyen, Loan; Ross, Elizabeth M.

doi:10.3390/genes11121478

Cited by 14 publications

(12 citation statements)

References 171 publications

(261 reference statements)

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“…Although not as accurate as short read sequencing, they seemed to be fast and sequencing reads are long (10-60 kb), hence they are leading to progress with livestock genome projects at the forefront, for example, goat (Bickhart et al, 2017) and water buffalo (Low et al, 2019) genome builds which each surpassed the human genome in contiguity. These technologies have high relevance in microbiome and pathogen sequencing and the Nanopore MinION technology has the capability to bring genome sequencing at the slaughterhouse level and to countries with more limited infrastructure for genome sequencing (Lamb et al, 2020).…”

Section: Livestock Genomics and Red Meat Qualitymentioning

confidence: 99%

Current research and emerging tools to improve fresh red meat quality

Gagaoua

Duffy

Álvarez

et al. 2022

Irish Journal of Agricultural and Food Research

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A consumer’s decision to purchase red meat is guided by a combination of many interacting factors including safety, nutrition, sustainability and perception of healthiness along with a variety of sensory characteristics such as colour, marbling, tenderness, juiciness and flavour. Red meat quality is complex and influenced by many intrinsic and extrinsic factors, spanning the chain from breed/genetics through to the final end product with key influences coming from on-farm management and post-mortem processing. As a result of various factors, including consumer demands, the importance of both red meat quality and safety has in recent times come to the fore for the meat industry, with steps to meet these requirements having a large bearing on profitability. Therefore, a critical review of steps which can help control these traits is very important. Accordingly, several processing strategies were proposed at the research and industry level aiming to improve fresh red meat quality traits. This review summarises the current methods applied to improve fresh red meat quality and safety, including the advances in management and prediction tools for carcass and technological and sensory quality traits. These methods are also relevant to the safety and microbiological status of carcasses and meat produced, along with the recent developments in sensory analysis, which aim to understand the sensory properties of red meat and consumers responses. The potential of foodomics approaches is discussed under the topics of genomics, proteomics and metabolomics, which help our understanding of the underlying biological mechanisms behind the variation of sensory and technological quality traits and their use for the discovery of putative biomarkers. We further considered the current and emerging sequencing-based methods used to understand microbial community composition of fresh red meat.

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Section: Livestock Genomics and Red Meat Qualitymentioning

confidence: 99%

Current research and emerging tools to improve fresh red meat quality

Gagaoua

Duffy

Álvarez

et al. 2022

Irish Journal of Agricultural and Food Research

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“…R. et al, 2015), can provide scalable, rapid and costeffective tools for informing the design, implementation and evaluation of eradication operations (Sjodin et al, 2020a), even when paired with non-invasive genetic sampling (Schmidt et al, 2020; see Figure 2 for a generalized workflow for GTseq SNP panel design). Further advances in DNA sequencing technologies have enabled portable genotyping in the field (e.g., Oxford Nanopore MinION; Lamb et al, 2020); although not yet opertionalized within the context of IMS eradication or control programs, this technology holds great promise if paired with pre-eradication inventories (e.g., Macdonald et al, 2019) for informing management operations in real-time.…”

Section: Utility Of Genetics/genomics To Design and Evaluate Eradication Programsmentioning

confidence: 99%

The Promise of Genetics and Genomics for Improving Invasive Mammal Management on Islands

Burgess

Irvine

Howald³

et al. 2021

Front. Ecol. Evol.

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Invasive species are major contributors to global biodiversity decline. Invasive mammalian species (IMS), in particular, have profound negative effects in island systems that contain disproportionally high levels of species richness and endemism. The eradication and control of IMS have become important conservation tools for managing species invasions on islands, yet these management operations are often subject to failure due to knowledge gaps surrounding species- and system-specific characteristics, including invasion pathways and contemporary migration patterns. Here, we synthesize the literature on ways in which genetic and genomic tools have effectively informed IMS management on islands, specifically associated with the development and modification of biosecurity protocols, and the design and implementation of eradication and control programs. In spite of their demonstrated utility, we then explore the challenges that are preventing genetics and genomics from being implemented more frequently in IMS management operations from both academic and non-academic perspectives, and suggest possible solutions for breaking down these barriers. Finally, we discuss the potential application of genome editing to the future management of invasive species on islands, including the current state of the field and why islands may be effective targets for this emerging technology.

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“…The developed workflow could also be a valuable tool for resolving transmission patterns of Human T Lymphotropic Virus type 1 (HTLV-1) in the central regions of Australia where disease prevalence has been estimated at 33% within indigenous populations [35] as this virus most similarity related to BLV. Furthermore, this tool could be used to resolve structural variation within several genomic loci at once to extend GWAS-based approaches that identify highly associated SNPs with a given phenotype within humans and livestock [36,37].…”

Section: Applicationmentioning

confidence: 99%

Tracing Viral Transmission and Evolution of Bovine Leukemia Virus through Long Read Oxford Nanopore Sequencing of the Proviral Genome

et al. 2021

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Bovine leukemia virus (BLV) causes Enzootic Bovine Leukosis (EBL), a persistent life-long disease resulting in immune dysfunction and shortened lifespan in infected cattle, severely impacting the profitability of the US dairy industry. Our group has found that 94% of dairy farms in the United States are infected with BLV with an average in-herd prevalence of 46%. This is partly due to the lack of clinical presentation during the early stages of primary infection and the elusive nature of BLV transmission. This study sought to validate a near-complete genomic sequencing approach for reliability and accuracy before determining its efficacy in characterizing the sequence identity of BLV proviral genomes collected from a pilot study made up of 14 animals from one commercial dairy herd. These BLV-infected animals were comprised of seven adult dam/daughter pairs that tested positive by ELISA and qPCR. The results demonstrate sequence identity or divergence of the BLV genome from the same samples tested in two independent laboratories, suggesting both vertical and horizontal transmission in this dairy herd. This study supports the use of Oxford Nanopore sequencing for the identification of viral SNPs that can be used for retrospective genetic contact tracing of BLV transmission.

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The Future of Livestock Management: A Review of Real-Time Portable Sequencing Applied to Livestock

Cited by 14 publications

References 171 publications

Current research and emerging tools to improve fresh red meat quality

Current research and emerging tools to improve fresh red meat quality

The Promise of Genetics and Genomics for Improving Invasive Mammal Management on Islands

Tracing Viral Transmission and Evolution of Bovine Leukemia Virus through Long Read Oxford Nanopore Sequencing of the Proviral Genome

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