1.Diagnostic and therapeutic value of open food challenge in children of cow′s milk protein allergy
Zhuang PI ; Xintong Lü ; Lan WU ; Zhaoxia WANG
Chinese Journal of Immunology 2016;32(4):567-569
Objective:To study the diagnostic and therapeutic value of open food challenge in children with cow ′s milk protein allergy.Methods:It is a retrospective analysis of 55 children with suspected cow′s milk protein allergy ( CMPA ) who attended the clinic of the pediatric gastroenterology department ,the First Hospital of Jilin University from March 2014 to March 2015.These children were fed by a mino acid based formulae ( AAF) for 2-4 weeks and then open food challenge ( OFC) test was performed.Those children who tested positive , were diagnosed as having CMPA.They were then fed with AAF for further 3 months and OFC was performed again.Then discusse the diagnostic and therapeutic value of open food challenge in children with cow ′s milk protein allergy.Results:Out of 55 CMPA suspected children ,52 tested positive with OFC yielding a positive rate of 94.55%.These 52 children were fed with AAF for further 3 months and then tested with OFC ,9 children tested positive yielding a positive rate of 17.30%.These 9 children were again fed with AAF for 3 months and then tested with OFC.This time 2 children tested positive yielding a positive rate of 3.85%.Con-clusion:Open food challenge teats are of great significance in the diagnosis of CMPA ,and evaluation of tolerance to cow′s milk protein ( CMP).
2.Cyanobacteria based photosynthetic production of sucrose: development and prospect.
Xintong CHI ; Shanshan ZHANG ; Shaoming MAO ; Guodong LUAN ; Quan LUO ; Xuefeng LÜ
Chinese Journal of Biotechnology 2019;35(8):1411-1423
Biorefinery technologies provide promising solutions to achieve sustainable development facing energy and environment crisis, while abundant sugar feedstock is an essential basis for biorefinery industries. Photosynthetic production of sucrose with cyanobacteria is an alternative sugar feedstock supply route with great potentials. Driven by solar energy, cyanobacteria photosynthetic cell factory could directly convert carbon dioxide and water into sucrose, and such a process could simultaneously reduce carbon emissions and supply sugar feedstocks. Here we introduced the history and updated the state-of-the-art on development of cyanobacteria cell factories for photosynthetic production of sucrose, summarized the progress and problems on mechanisms of sucrose synthesis, metabolic engineering strategies and technology expansions, and finally forecasted the future development direction in this area.
Carbon Dioxide
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Cyanobacteria
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Metabolic Engineering
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Photosynthesis
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Sucrose