The ugpG gene, which codes for a UDP-glucose pyrophosphorylase (UGP) (or glucose-1-phosphate uridylyltransferase; EC 2.7.7.9) in Sphingomonas paucimobilis ATCC 31461, was cloned and sequenced. This industrial strain produces the exopolysaccharide gellan, a new commercial gelling agent, and the ugpG gene may convert glucose-1-phosphate into UDP-glucose in the gellan biosynthetic pathway. The ugpG gene is capable of restoring the capacity of an Escherichia coli galU mutant to grow on galactose by functional complementation of its deficiency for UDP-glucose pyrophosphorylase activity. As expected, the predicted gene product shows strong homology to UDP-glucose pyrophosphorylases from several bacterial species. The N-terminal region of UgpG exhibits the motif GXGTRXLPXTK, which is highly conserved among bacterial XDP-sugar pyrophosphorylases, and a lysine residue (K 192 ) is located within a VEKP motif predicted to be essential for substrate binding or catalysis. UgpG was purified to homogeneity as a heterologous fusion protein from crude cell extracts prepared from IPTGinduced cells of E. coli, using affinity chromatography. Under denaturing conditions, the fusion protein S-UgpG-His 6 migrated with an estimated molecular mass of 36 kDa [corresponding to the predicted molecular mass of native UgpG (31.2 kDa) plus 5 kDa for the S and histidine tags). Kinetic analysis of UgpG in the reverse reaction (pyrophosphorolysis) showed a typical Michaelis-Menten substrate saturation pattern. The apparent K m and V max values estimated for UDP-glucose were 7.5 lM and 1275 lmol/min/g.
Paca (Cuniculus paca Linnaeus, 1766) is the second largest rodent found in Brazil. The quality of the meat and a long tradition of hunting have contributed to the decline of the natural populations of this species. Hunting of paca is strictly prohibited in Brazil, but in spite of this restriction, no forensic tools are available for the identification of the meat. We describe an efficient method, based on single nucleotide polymorphisms of the cytochrome b gene, that can be used to differentiate biological material derived from paca from those of domestic species commonly used as sources of meat. The identification of the presence of C. paca in the samples was 100% reliable.Keywords: forensic science, Cytochrome b, wild rodent, molecular markers.
Perfis diagnósticos do gene Citocromo b para a identificação molecular de paca (Cuniculus paca): implicações para a detecção e monitoramento de caça e comércio ilegalResumo Paca (Cuniculus paca Linnaeus, 1766) é o segundo maior roedor brasileiro. A qualidade da carne e a forte tradição da caça de subsistência são fatores que contribuem significativamente para o declínio das populações. Apesar da proibição a caça no Brasil, no momento ainda não há ferramentas disponíveis para identificar a carne e seus produtos como prova forense. Neste trabalho propomos um método eficaz de identificação, baseado em polimorfismos de único nucleotídeo no gene Citocromo b, objetivando diferenciar material biológico de paca das espécies domésticas comumente utilizadas como alimento no Brasil. A identificação das amostras de paca foram possíveis em 100% das amostras analisadas.Palavras-chave: ciência forense, Citocromo b, roedor selvagem, marcador molecular.
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