https://www.selleckchem.com/products/gs-9973.html Our study extends the known distribution of this rare muscular dystrophy and presents the first detailed clinical and genetic characterizations of LGMD R7 cases from the Chinese population. Our work expands the mutation spectrum known for LGMD R7 and emphasizes the need for clinicians to consider TCAP mutations when evaluating patients with symptoms of limb girdle muscular dystrophy. Forty rhizobial strains were isolated from Lotus creticus, L. pusillus and Bituminaria bituminosa endemic to Tunisia, and they belonged to the Mesorhizobium and Ensifer genera based on 16S rDNA sequence phylogeny. According to the concatenated recA and glnII sequence-based phylogeny, four Bituminaria isolates Pb5, Pb12, Pb8 and Pb17 formed a monophyletic group with Mesorhizobium chacoense ICMP14587T, whereas four other strains Pb1, Pb6, Pb13 and Pb15 formed two separate lineages within the Ensifer genus. Among the L. pusillus strains, Lpus9 and Lpus10 showed a 96% identical nucleotide with Ensifer meliloti CCBAU83493T; whereas six other strains could belong to previously undescribed Mesorhizobium and Ensifer species. For L. creticus strains, Lcus37, Lcus39 and Lcus44 showed 98% sequence identity with Ensifer aridi JNVU TP6, and Lcus42 shared a 96% identical nucleotide with Ensifer meliloti CCBAU83493T; whereas another four strains were divergent from all the described Ensifer and Mesorhizobium species. The analysis of the nodC gene-based phylogeny identified four symbiovar groups; Mesorhizobium sp. sv. anthyllidis (Lpus3 and Lpus11 from L. pusillus, Lcus43 from L. creticus), Ensifer medicae sv. meliloti (four strains from L. creticus and two strains from L. pusillus), E. meliloti sv. meliloti (four from L. creticus, four from L. pusillus and four from B. bituminosa). In addition, four B. bituminosa strains (Pb5, Pb8, Pb12, and Pb17) displayed a distinctive nodC sequence distant from those of other symbiovars described to date. According