ABSTRACT
Objective To investigate clinical features and detect mutations in a case of tuberous sclerosis complex (TSC) caused by a somatic mosaic mutation in the TSC2 gene.Methods Peripheral blood samples were obtained from a patient with suspected TSC,his parents,and 200 unrelated healthy controls.Genomic DNA was extracted from these blood samples,polymerase chain reaction (PCR)and nextgeneration sequencing were performed to amplify all the exons and their flanking sequences of the TSC 1 and TSC2 genes followed by DNA sequencing,so as to identify mutations in the TSC 1 and TSC2 genes.DNA was also extracted from lesional skin tissues of the patient,and PCR was conducted to amplify the target fragment of the TSC2 gene followed by DNA sequencing.Results The patient clinically presented with facial angiofibroma,depigmented patches on the waist,periungual fibroma and angioleio-myolipoma of the kidney,which were consistent with the diagnosis of TSC.A mutation c.5130_5131insT(p.V1711Cfs* 18) was identified in the TSC2 gene in the patient.A higher frequency of the mutation was found in the DNA of the tumor tissue than in that of the peripheral blood.No such a mutation was found in his parents'DNA,unrelated healthy controls or any public database.Conclusion The somatic mosaic mutation c.5130_513 1insT in the TSC2 gene is responsible for the phenotype of TSC in the patient.
ABSTRACT
<p><b>OBJECTIVE</b>To explore the molecular and epidemic characteristics of rifampin (RFP) and isoniazid (INH) resistance of mycobacterium tuberculosis (MTB) in Sichuan.</p><p><b>METHODS</b>GenoType reg; MTBDRplus Assay GTplus was used to examine 68 clinical isolates of MTB and 105 clinical specimens for mutations in rpoB, katG and inhA genes related to RFP and INH resistance.</p><p><b>RESULTS</b>Of the 151 valid tests obtained, 44 (29.14%) and 26 (17.22%) showed drug resistance and multidrug resistance, respectively. Resistance to RFP and INH was found in 21.85% (33/151) and 24.50% (37/151) of the samples, respectively. The most prevalent mutations were rpoB S531L, katG S315T1 and inhA C-15T. The multidrug resistance rate in the sputum specimens was significantly higher than that in the non-respiratory samples (19.35% vs 7.41%).</p><p><b>CONCLUSION</b>Drug-resistant, especially multidrug-resistant tuberculosis is highly prevalent in Sichuan. The multidrug-resistant bacteria most frequently show rpoB S531L combined with katG S315T1 mutations, suggesting the necessity of developing rapid clinical identification methods for drug-resistant MTB to control the spread of the resistant strains.</p>