Genetic Diversity Identification and Haplotype Distribution of Myostatin Gene in Goats

Background: Myostatin (MSTN) is a highly conserved protein that acts as a negative regulator of skeletal muscle growth. MSTN gene is closely associated with multiple biological functions and its mutations are directly linked to muscle development in different species. Loss of MSTN functionality causes the phenotype to appear in the form of ‘double musculature’, among others in cattle, sheep and house mice.Methods: The mixed DNA pool of Boer and Dazu black goats to sequence MSTN coding and noncoding regions. Snapshot typing technology was used to analyse three goat production types, namely, Boer (meat goats), Nubian (breast and meat dual-use goat), Dazu black (local breeds) and Youzhou black goats (local breeds). Polymorphic loci in MSTN were used from four goat populations to construct haplotypes and calculate haplotype frequency distribution through NETWORK and MEGA to construct a phylogenetic tree and visualize phylogenetic relationship.Result: From these populations, 18 haplotypes were constructed using 20 polymorphic loci. Phylogenetic analysis revealed a significant difference in the haplotype distribution of MSTN in different goat production types. The 18 haplotypes were divided into two clusters. The haplotypes carried by the Boer goat belonged to Cluster I and those carried by the Nubian goat and two local goat breeds belonged to both clusters. Chinese local goats and complex production goats carried more haplotypes of MSTN and had a richer genetic diversity than other production types did. Moreover, local and complex production goats had high-frequency haplotypes of the MSTN of meat goats and had high potential for breeding.

Worldwide SARS-COV-2 haplotype distribution

The world is experiencing one of the most severe viral outbreaks in the last years, the pandemic infection by SARS-COV-2, causative agent of COVID-19 disease. The virus reached over 120 countries, with a total number of 6.5 million infected, and 320000 deaths. A deeper understanding of its genomic diversity is mandatory.We analyzed 21296 SARS-COV-2 reported sequences, defining the existence of recurrent haplotypes and their specific geographical distribution.

Prevalence of ‘CandidatusLiberibacter solanacearum’ Haplotypes in Potato Tubers and Psyllid Vectors in Idaho From 2012 to 2018

‘Candidatus Liberibacter solanacearum’ (Lso) is an uncultured, phloem-associated bacterium causing a severe tuber disease in potato called zebra chip (ZC). Seven haplotypes of Lso have been described in different hosts, with haplotypes A and B found associated with infections in potato and tomato. In the field, Lso is transmitted by the potato psyllid (Bactericera cockerelli), and between 2011 and 2015, a significant change in Lso haplotype prevalence was previously reported in Idaho: from exclusively A haplotype found in tested psyllids in 2012 to mainly B haplotype found in collected psyllids in 2015. However, prevalence of Lso haplotypes in Idaho was not analyzed in potato tubers exhibiting symptoms of ZC. To fill in this knowledge gap, prevalence of Lso haplotypes was investigated in potato tubers harvested in southern Idaho between 2012 and 2018, and it was found to change from exclusively A haplotype in the 2012 season to an almost equal A and B haplotype distribution during the 2016 season. During the same period, haplotype distribution of Lso in psyllid vectors collected using yellow sticky traps also changed, but in psyllids, the shift from A haplotype of Lso to B haplotype was complete, with no A haplotype detected in 2016 to 2018. The changes in the haplotype prevalence of the Lso circulating in potato fields in southern Idaho may be, among other factors, responsible for a decrease in the ZC incidence in Idaho potato fields between an outbreak of the disease in 2012 and a very low level of ZC afterward.