Isolation and analysis of wax esters from activated sludge

Neutral lipid from activated sludge (AS) as a potential source for biodiesel production has recently received considerable attentions. The utilization of useful compounds in AS may help reducing the cost of biodiesel production from AS. One of these compounds is the valuable wax esters (WEs) found in AS from a food processing company in Taiwan. About 4.13% (based on dry sludge weight) bleached wax was obtained after pretreatment and bleaching of crude sludge wax obtained from the dewaxing of crude sludge oil. The major WEs detected in the bleached wax were C46-C60 with small amounts of C37-C43 and C62 WEs. The fatty acids (FAs) and fatty alcohols (FALs) profiles of WEs were also investigated. Activated sludge WEs are mainly mixture of C14-C28 FAs and C24-C37 FALs, in which the predominant FAs are C16 and C18 while the predominant FALs are C32 and C34.     

Biochemical characteristics of the novel haloalkane dehalogenase DatA, isolated from the plant pathogen Agrobacterium tumefaciens C58

We report the biochemical characterization of a novel haloalkane dehalogenase, DatA, isolated from the plant pathogen Agrobacterium tumefaciens C58. DatA possesses a peculiar pair of halide-stabilizing residues, Asn-Tyr, which have not been reported to play this role in other known haloalkane dehalogenases. DatA has a number of other unique characteristics, including substrate-dependent and cooperative kinetics, a dimeric structure, and excellent enantioselectivity toward racemic mixtures of chiral brominated alkanes and esters.     

Characterization of cDNA clones encoding a human fibroblast caldesmon isoform and analysis of caldesmon expression in normal and transformed cells

Overlapping cDNA clones encoding a low M gamma human nonmuscle caldesmon isoform (HUM 1-CaD) span the entire coding region (538 amino acids) as well as 111 base pairs (bp) of 5'-noncoding and 1249 bp of 3'-noncoding region. Northern blot probes derived from either the coding or 3'-noncoding region hybridized to a 4.3-kilobase mRNA in nonmuscle cells and a 5.2-kilobase mRNA in stomach tissue. Primer extension results indicated that the 5'-noncoding region of the HUM 1-CaD mRNA is approximately 700 bp in length and also suggested that 1-CaD mRNAs with common 5'-noncoding regions are expressed in both liver and fibroblast cells. Comparisons of the human, rat, and chicken 1-CaD amino acids sequences demonstrated that although each isoform has unique characteristics, extensive regions of conservation exist. Amino acids 27-53 and 97-127 are 100% identical in these isoforms while amino acids 297-531 of HUM 1-CaD are 94 and 85% identical to the rat and chicken 1-CaDs, respectively. In addition, the levels of HUM 1-CaD mRNA and protein appeared to be decreased by 2-4 fold in the transformed derivatives of KD and WI38 cell lines as judged by Northern and Western blot analysis. The results suggest that the decrease of 1-CaD protein in these transformed cells is a direct result of decreased 1-CaD mRNA synthesis and/or increased mRNA turnover.     

Phylogenetic analysis and in-depth characterization of functionally and structurally diverse CE5 cutinases

Cutinases are esterases that release fatty acids from the apoplastic layer in plants. As they accept bulky and hydrophobic substrates, cutinases could be used in many applications, ranging from valorization of bark-rich side streams to plastic recycling. Advancement of these applications, however, requires deeper knowledge of cutinases’ biodiversity and structure–function relationships. Here, we mined over 3000 members from carbohydrate esterase family 5 for putative cutinases and condensed it to 151 genes from known or putative lignocellulose-targeting organisms. The 151 genes were subjected to a phylogenetic analysis, which showed that cutinases with available crystal structures were phylogenetically closely related. We then selected nine phylogenic diverse cutinases for recombinant production and characterized their kinetic activity against para-nitrophenol substrates esterified with consecutively longer alkyl chains (pNP-C₂ to C₁₆). Each investigated cutinase had a unique activity fingerprint against the tested pNP substrates. The five enzymes with the highest activity on pNP-C₁₂ and C₁₆, indicative of activity on bulky hydrophobic compounds, were selected for in-depth kinetic and structure–function analysis. All five enzymes showed a decrease in k_cat values with increasing substrate chain length, whereas K_M values and binding energies (calculated from in silico docking analysis) improved. Two cutinases from Fusarium solani and Cryptococcus sp. exhibited outstandingly low K_M values, resulting in high catalytic efficiencies toward pNP-C₁₆. Docking analysis suggested that different clades of the phylogenetic tree may harbor enzymes with different modes of substrate interaction, involving a solvent-exposed catalytic triad, a lipase-like lid, or a clamshell-like active site possibly formed by flexible loops.