We have developed a whole-cell bioconversion system for the production of d-1,2,4-butanetriol (BT) from renewable biomass. A plasmid pETduet-xylB-yjhG-T7-adhP-T7-mdlC was constructed and transformed to Escherichia col...
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We have developed a whole-cell bioconversion system for the production of d-1,2,4-butanetriol (BT) from renewable biomass. A plasmid pETduet-xylB-yjhG-T7-adhP-T7-mdlC was constructed and transformed to Escherichia coli BL21(DE3) to obtain the whole cells of E. coli BL21-XYMA capable of bioconversion d-xylose to BT. Then, the factors including carbon sources, nitrogen sources, metal ions, and culture conditions (pH, temperature, IPTG) were identified, and their effects on the whole-cell activity for BT production were investigated. To obtain the highest whole-cell activity, the optimal cultivation parameters are: 15 gL(-1) yeast extract, 5 gL(-1) sucrose, 3 gL(-1) KH2PO4, 5 gL(-1) NaCl, 3 gL(-1) NH4Cl, 0.25 gL(-1) MgSO(4)7H(2)O and 1 mLL(-1) the mixture of trace elements. With the optimized whole cells of E. coli BL21-XYMA, 60 gL(-1) of xylose was converted to 28 gL(-1) BT with a molar yield of 66 %, which is higher than those reported in the biotechnological system.
A thermally induced hexagonal close-packed(HCP)to face-centered cubic(FCC)phase transition was investigated in anα-type Ti35 alloy with twinned structure by in situ heating transmission electron microscopy(TEM)and ab...
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A thermally induced hexagonal close-packed(HCP)to face-centered cubic(FCC)phase transition was investigated in anα-type Ti35 alloy with twinned structure by in situ heating transmission electron microscopy(TEM)and ab initio *** observations indicated that the HCP to FCC phase transition occurred both within matrix/twin and at the twin boundaries in the thinner region of the TEM film,and the FCC-Ti precipitated as plates within the matrix/twin,while as equiaxed cells at twin *** crystallographic orientation relationship between HCP-Ti and FCC-Ti can be described as:{111}FCC//{0002}HCP andFCC//*** HCP to FCC phase transition was accomplished by forming an intermediate state with a BB stacking sequence through the slip of partial *** formation of such FCC-Ti may be related to the thermal stress and *** initio calculations showed that the formation of FCC-Ti may also be related to the contamination of interstitial atoms such as oxygen.
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