Genome-wide association studies of seedling quantitative trait loci against salt tolerance in wheat.

Salinity is one of the significant factors in decreasing wheat yield and quality. To counter this, it is necessary to develop salt-tolerant wheat varieties through conventional and advanced molecular techniques. The current study identified quantitative trait loci in response to salt stress among worldwide landraces and improved varieties of wheat at the seedling stage. A total of 125 landraces and wheat varieties were subjected to salt treatment (50, 100, and 150 mM) with control. Morphological seedling traits, i.e., shoot length, root length, and fresh and dry shoot and root weights for salinity tolerance were observed to assess salt tolerance and genetic analysis using SNP data through DArT-seq. The results showed that, at the seedling stage, 150 mM NaCl treatment decreased shoot length, root length, and fresh and dry weights of the shoot and root. The root length and dry root weight were the most affected traits at the seedling stage. Effective 4417 SNPs encompassing all the chromosomes of the wheat genome with marker density, i.e., 37%, fall in genome B, genome D (32%), and genome A (31%). Five loci were found on four chromosomes 6B, 6D, 7A, and 7D, showing strong associations with the root length, fresh shoot weight, fresh root weight, and dry root weight at the p < 0.03 significance level. The positive correlation was found among all morphological traits under study.

Molecular survey of Toxoplasma gondii in cattle and buffaloes and phylogenetic position of Pakistani isolates based on ITS-1 gene.

Toxoplasma gondii (T. gondii) is a facultative heterogeneous parasite that belongs to Apicomplexa and can infect almost all warm-blooded animals, including ruminants, birds and humans. To date, no information is available about the molecular investigation of T. gondii in large ruminants from Pakistan. In the present study, prevalence, risk factors and genetic diversity of this parasite were evaluated by using PCR based on ITS-1 gene followed by sequencing of three selected positive PCR products. A total of 310 blood samples from cattle (N = 190) and buffaloes (N = 120) were collected from randomly selected farms located in Rajanpur district in Punjab (Pakistan). The overall infection rates of T. gondii were 12.2% (23/190) and 0% (0/120), respectively, in cattle and buffaloes. All studied epidemiological factors were not found associated with T. gondii infection in cattle. Sequence analysis of our T. gondii isolates infecting cattle revealed only one sequence considered as the most represented genetic variant (GV1) among T. gondii isolates around the world. Phylogenetic analysis revealed that ITS-1 partial sequences of our isolates clustered with those from T. gondii isolates infecting goats and birds from Pakistan and other isolates found in several animal species from different worldwide countries like China, Thailand, Poland, Canada, USA and Brazil. Our report indicates a natural infection with T. gondii of cattle for the first time in Pakistan by using molecular method. This study is important to the design of control strategy against this parasite in order to improve the output of livestock sector which is the main income source of the population in Pakistan.