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330   $aIn this Special Issue, we present the state of the art in the field of pig genetics and genomics, including the identification of gene candidates linked to important pig traits and to nutritional modifications, with the aim of collecting the most recent advances. The published manuscripts focused on high-throughput methodologies, such as RNA sequencing, ATAC-seq, MACE-seq, chip-seq, and RRBS, and covered other fields of pig genetics. The pig (Sus scrofa) is the most common large mammal in the world. The Sus genus includes domestic pig and wild boar. Since the draft reference genome sequence of S. scrofa was assembled in 2012, the processes of identification of genes related to important phenotypic traits and of search of genetic markers for pig selection have been significantly refined. In addition, the newest wide-range high-throughput techniques, including microarrays, next-generation sequencing, and the recent PacBio sequencing platform providing ultra-long sequencing reads, allow identifying gene mutations and gene candidates throughout the whole genome, transcriptome, or epigenome and estimating quantitative traits important for breeding as well as the genetic backgrounds of inherited diseases.
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606   $aBiology, life sciences$2bicssc
606   $aZoology & animal sciences$2bicssc
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610   $apromoter
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610   $aHezuo Tibetan pig
610   $aAQP3
610   $apig
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610   $aadipogenesis
610   $aproliferation
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610   $aobesity
610   $aextracellular matrix
610   $afat deposition
610   $alipid metabolism
610   $aNGS
610   $agenetically modified pigs
610   $agenome modifications
610   $atransgenic pigs
610   $agenetic engineering
610   $adisease models
610   $arecombinant proteins
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610   $aCRISPR/Cas9 system
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610   $aTIDE analysis
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610   $aendometrium
610   $aglobal gene expression
610   $amicroarray
610   $aalternative splicing
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610   $aprotein
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610   $asingle nucleotide polymorphism
610   $ahypothalamus
610   $apuberty
610   $acircRNAs
610   $apubertal genes
610   $aDuroc pigs
610   $agrowth traits
610   $aweighted single-step GWAS
610   $aSNP
610   $agene expression
610   $acongenital defects
610   $atranscriptomics
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