Background: Diagnostic microbial isolates of bio-safety levels 3 and 4 are difficult to handle in medical field camps under military deployment settings. International transport of such isolates is challenging due to ...Background: Diagnostic microbial isolates of bio-safety levels 3 and 4 are difficult to handle in medical field camps under military deployment settings. International transport of such isolates is challenging due to restrictions by the International Air Transport Association. An alternative option might be inactivation and sequencing of the pathogen at the deployment site with subsequent sequence-based revitalization in well-equipped laboratories in the home country for further scientific assessment. Methods: A literature review was written based on a Pub Med search. Results: First described for poliovirus in 2002, de novo synthesis of pathogens based on their sequence information has become a well-established procedure in science. Successful syntheses have been demonstrated for both viruses and prokaryotes. However, the technology is not yet available for routine diagnostic purposes. Conclusions: Due to the potential utility of diagnostic sequencing and sequence-based de novo synthesis of pathogens, it seems worthwhile to establish the technology for diagnostic purposes over the intermediate term. This is particularly true for resource-restricted deployment settings, where safe handling of harmful pathogens cannot always be guaranteed.展开更多
Objective To investigate a 272 base pair section of the 5' non coding region of genomic DNA from the peripheral blood monounuclear cells of healthy hepatitis virus C (HCV) negative human subjects (not patien...Objective To investigate a 272 base pair section of the 5' non coding region of genomic DNA from the peripheral blood monounuclear cells of healthy hepatitis virus C (HCV) negative human subjects (not patients) Mothods This sequence section bears interest because ① it harbors several potential methylation (Cp rich) sites, and ② it represents the largest part of its internal ribosomal entry site A pre PCR digestion protocol was established making consistent use of four restriction endonucleases selected for certain features: SmaI, XmaCI, MspI, and HpaII are inhibited if methylation(s) are present at certain cytosines within their cutting sequences Results The suspected HCV specific sequence was found in the DNA of each subject tested The pre PCR digestion assay reveals individual differences in their pattern of methylation, which may be due to possible epigenetic phenomena Conclusions The results provide formal proof that these HCV specific sequences are contained in the genomic or extra chromosomal target DNA, and probably belong to a new class of endogenous sequences展开更多
文摘Background: Diagnostic microbial isolates of bio-safety levels 3 and 4 are difficult to handle in medical field camps under military deployment settings. International transport of such isolates is challenging due to restrictions by the International Air Transport Association. An alternative option might be inactivation and sequencing of the pathogen at the deployment site with subsequent sequence-based revitalization in well-equipped laboratories in the home country for further scientific assessment. Methods: A literature review was written based on a Pub Med search. Results: First described for poliovirus in 2002, de novo synthesis of pathogens based on their sequence information has become a well-established procedure in science. Successful syntheses have been demonstrated for both viruses and prokaryotes. However, the technology is not yet available for routine diagnostic purposes. Conclusions: Due to the potential utility of diagnostic sequencing and sequence-based de novo synthesis of pathogens, it seems worthwhile to establish the technology for diagnostic purposes over the intermediate term. This is particularly true for resource-restricted deployment settings, where safe handling of harmful pathogens cannot always be guaranteed.
文摘Objective To investigate a 272 base pair section of the 5' non coding region of genomic DNA from the peripheral blood monounuclear cells of healthy hepatitis virus C (HCV) negative human subjects (not patients) Mothods This sequence section bears interest because ① it harbors several potential methylation (Cp rich) sites, and ② it represents the largest part of its internal ribosomal entry site A pre PCR digestion protocol was established making consistent use of four restriction endonucleases selected for certain features: SmaI, XmaCI, MspI, and HpaII are inhibited if methylation(s) are present at certain cytosines within their cutting sequences Results The suspected HCV specific sequence was found in the DNA of each subject tested The pre PCR digestion assay reveals individual differences in their pattern of methylation, which may be due to possible epigenetic phenomena Conclusions The results provide formal proof that these HCV specific sequences are contained in the genomic or extra chromosomal target DNA, and probably belong to a new class of endogenous sequences