AIM: To design a novel method to rapidly detect the quantitative alteration of mtRNA in patients with tumors.METHODS: Oligo 6.22 and Primer Premier 5.0 bio-soft were used to design 15 pairs of primers of mtRNA cDNA pr...AIM: To design a novel method to rapidly detect the quantitative alteration of mtRNA in patients with tumors.METHODS: Oligo 6.22 and Primer Premier 5.0 bio-soft were used to design 15 pairs of primers of mtRNA cDNA probes in light of the functional and structural property of mtDNA, and then RT-PCR amplification was used to produce 15 probes of mtRNA from one normal gastric mucosal tissue. Total RNA extracted from 9 gastric cancers and corresponding normal gastric mucosal tissues was reverse transcribed into cDNA labeled with fluorescein. The spotted mtDNA microarrays were made and hybridized. Finally,the microarrays were scanned with a GeneTACTM laser scanner to get the hybridized results. Northern blot was used to confirm the microarray results.RESULTS: The hybridized spots were distinct with clear and consistent backgrounds. After data was standardized according to the housekeeping genes, the results showed that the expression levels of some mitochondrial genes in gastric carcinoma were different from those in the corresponding non-cancerous regions.CONCLUSION: The mtDNA expression microarray can rapidly, massively and exactly detect the quantity of mtRNA in tissues and cells. In addition, the whole expressive information of mtRNA from a tumor patient on just one slide can be obtained using this method, providing an effective method to investigate the relationship between mtDNA expression and tumorigenesis.展开更多
Objective To investigate the role of a potential diabetes related mitochondrial region, which includes two previously reported mutations, 3243AG and 3316GA, in Chinese patients with adult onset type 2 diabetes Met...Objective To investigate the role of a potential diabetes related mitochondrial region, which includes two previously reported mutations, 3243AG and 3316GA, in Chinese patients with adult onset type 2 diabetes Methods A total of 277 patients and 241 normal subjects were recruited for the study Mitochondrial nt 3116-3353, which spans the 16S rRNA, tRNA leu(UUR) and the NADH dehydrogenase 1 gene, were detected using polymerase chain reaction (PCR), direct DNA sequencing, PCR restriction fragment length polymorphism and allele specific PCR Variants were analyzed by two tailed Fisher exact test The function of the variants in 16S rRNA were predicted for minimal free energy secondary structures by RNA folding software mfold version 3 Results Four homoplasmic nucleotide substitutions were observed, 3200TC, 3206CT, 3290TC and 3316GA Only the 3200TC mutation is present in the diabetic population and absent in the control population No statistically significant associations were found between the other three variants and type 2 diabetes The 3200TC and 3206CT nucleotide substitutions located in 16S rRNA are novel variants The 3200TC caused a great alteration in the minimal free energy secondary structure model while the 3206CT altered normal 16S rRNA structure little Conclusions The results suggest that the 3200TC mutation is linked to the development of type 2 diabetes, but that the other observed mutations are neutral In contrast to the Japanese studies, the 3316GA does not appear to be related to type 2 diabetes展开更多
Pentatricopepetide repeat (PPR) proteins are a large family of RNA-binding proteins involved in RNA meta- bolism in plant organelles. Although many PPR proteins have been functionally studied, few of them are identi...Pentatricopepetide repeat (PPR) proteins are a large family of RNA-binding proteins involved in RNA meta- bolism in plant organelles. Although many PPR proteins have been functionally studied, few of them are identified with a function in mitochondrial RNA stability. By using a reverse genetic approach, we characterized the role of the mitochondrion-targeted PPR78 protein in nad5 mature mRNA stability and maize (Zea mays) seed development. Loss of PPR78 function leads to a dramatic reduction in the steady-state level of mitochondrial nad5 mature mRNA, blocks the assembly of complex I in the electron transport chain, and causes an arrest in embryogenesis and endosperm development. Characterization of a second strong allele confirms the function of PPR78 in nad5 mRNA accumulation and maize seed development. The generation of mature nad5 requires the assembly of three distinct precursor RNAs via transsplicing reactions, and the accumulation ofnad5T1 precursor is reduced in the ppr78 mutants. However, it is the instability of mature nad5 rather than nad5T1 causing loss of the full-length nad5 transcript, and degradation of nad5 losing both translation start and stop codons is enriched in the mutant. Our data imply the assembly of mature nad5 mRNA precedes the protection of PPR78.展开更多
基金Supported by the National Natural Science Foundation of China,No.30371607
文摘AIM: To design a novel method to rapidly detect the quantitative alteration of mtRNA in patients with tumors.METHODS: Oligo 6.22 and Primer Premier 5.0 bio-soft were used to design 15 pairs of primers of mtRNA cDNA probes in light of the functional and structural property of mtDNA, and then RT-PCR amplification was used to produce 15 probes of mtRNA from one normal gastric mucosal tissue. Total RNA extracted from 9 gastric cancers and corresponding normal gastric mucosal tissues was reverse transcribed into cDNA labeled with fluorescein. The spotted mtDNA microarrays were made and hybridized. Finally,the microarrays were scanned with a GeneTACTM laser scanner to get the hybridized results. Northern blot was used to confirm the microarray results.RESULTS: The hybridized spots were distinct with clear and consistent backgrounds. After data was standardized according to the housekeeping genes, the results showed that the expression levels of some mitochondrial genes in gastric carcinoma were different from those in the corresponding non-cancerous regions.CONCLUSION: The mtDNA expression microarray can rapidly, massively and exactly detect the quantity of mtRNA in tissues and cells. In addition, the whole expressive information of mtRNA from a tumor patient on just one slide can be obtained using this method, providing an effective method to investigate the relationship between mtDNA expression and tumorigenesis.
文摘Objective To investigate the role of a potential diabetes related mitochondrial region, which includes two previously reported mutations, 3243AG and 3316GA, in Chinese patients with adult onset type 2 diabetes Methods A total of 277 patients and 241 normal subjects were recruited for the study Mitochondrial nt 3116-3353, which spans the 16S rRNA, tRNA leu(UUR) and the NADH dehydrogenase 1 gene, were detected using polymerase chain reaction (PCR), direct DNA sequencing, PCR restriction fragment length polymorphism and allele specific PCR Variants were analyzed by two tailed Fisher exact test The function of the variants in 16S rRNA were predicted for minimal free energy secondary structures by RNA folding software mfold version 3 Results Four homoplasmic nucleotide substitutions were observed, 3200TC, 3206CT, 3290TC and 3316GA Only the 3200TC mutation is present in the diabetic population and absent in the control population No statistically significant associations were found between the other three variants and type 2 diabetes The 3200TC and 3206CT nucleotide substitutions located in 16S rRNA are novel variants The 3200TC caused a great alteration in the minimal free energy secondary structure model while the 3206CT altered normal 16S rRNA structure little Conclusions The results suggest that the 3200TC mutation is linked to the development of type 2 diabetes, but that the other observed mutations are neutral In contrast to the Japanese studies, the 3316GA does not appear to be related to type 2 diabetes
文摘Pentatricopepetide repeat (PPR) proteins are a large family of RNA-binding proteins involved in RNA meta- bolism in plant organelles. Although many PPR proteins have been functionally studied, few of them are identified with a function in mitochondrial RNA stability. By using a reverse genetic approach, we characterized the role of the mitochondrion-targeted PPR78 protein in nad5 mature mRNA stability and maize (Zea mays) seed development. Loss of PPR78 function leads to a dramatic reduction in the steady-state level of mitochondrial nad5 mature mRNA, blocks the assembly of complex I in the electron transport chain, and causes an arrest in embryogenesis and endosperm development. Characterization of a second strong allele confirms the function of PPR78 in nad5 mRNA accumulation and maize seed development. The generation of mature nad5 requires the assembly of three distinct precursor RNAs via transsplicing reactions, and the accumulation ofnad5T1 precursor is reduced in the ppr78 mutants. However, it is the instability of mature nad5 rather than nad5T1 causing loss of the full-length nad5 transcript, and degradation of nad5 losing both translation start and stop codons is enriched in the mutant. Our data imply the assembly of mature nad5 mRNA precedes the protection of PPR78.
