Benjamin C. M. Pang scite author profile

Benjamin C. M. Pang

3Publications

89Citation Statements Received

106Citation Statements Given

How they've been cited

116

How they cite others

100

Affiliations

University of Hong Kong, Chinese University of Hong Kong

Publications

Order By: Most citations

Applicability of Two Commercially Available Kits for Forensic Identification of Saliva Stains

Pang¹,

Cheung²

2008

Journal of Forensic Sciences

View full text Add to dashboard Cite

The RSID-saliva test and the SALIgAE-saliva test are two recently developed forensic saliva detection kits. In this study, we compared the sensitivity and the specificity of the two test kits with the Phadebas amylase test by analyzing amylases from various sources including human, animals, plants, and micro-organism. The data demonstrate that the RSID-saliva test and the SALIgAE-saliva test offer higher sensitivity and specificity for the detection of saliva than the Phadebas amylase test. The detection limits of the RSID-saliva test, the SALIgAE-saliva test, and the Phadebas amylase test equate to 10, 4, and 1000 nL, respectively for human saliva. The RSID-saliva test and the SALIgAE-saliva test were further evaluated by analyzing semen, vaginal secretion, breast milk, blood, urine, sweat, and feces. The results of the two tests are in good agreement. The two tests reacted with urine, breast milk, and feces, but not with semen, vaginal secretion, blood, and sweat.

show abstract

Identification of the Dimerization Domain of Dehalogenase IVa ofBurkholderia cepaciaMBA4

Tsang

Pang

2000

Appl Environ Microbiol

View full text Add to dashboard Cite

Haloacid dehalogenases are enzymes that catalyze the hydrolytic removal of halogens from haloalkanoic acids. Dehalogenase IVa (DehIVa) from Burkholderia cepacia MBA4 and dehalogenase CI (DehCI) from Pseudomonas sp. strain CBS3 exhibit 68% identity. Despite their similarity DehIVa is a dimeric enzyme while DehCI is a monomer. In this work, we describe the identification of the domain that confers the dimerization function of DehIVa. Recombinant DNA molecules were constructed by fusion of the respective dehalogenase genes hdlIVa and dehCI. When amino acids 73 to 89 of DehCI were replaced by amino acids 74 to 90 of DehIVa, the recombinant molecule migrated like that of DehIVa in a nondenaturing activity-stained gel. Similarly, when residues 73 to 89 of DehIVa were replaced by the corresponding residues of DehCI, the chimera migrated as a monomer. These 17 amino acid changes were able to determine the aggregation states of the molecules. The retention of the catalytic function in these chimeras indicated that the overall folding of these proteins was not affected. Site-directed mutagenesis on hdlIVa however indicated that amino acids Phe58, Thr65, Leu78, and Phe92 of DehIVa are also important for the aggregation state of the protein. This indicates that the 17 residues are not sufficient for the dimerization of the protein.Dehalogenases are enzymes that remove halogen from the carbon moiety (6). Several dehalogenases have been purified and characterized since their first detection in bacteria. These dehalogenases were categorized according to their substrate specificities (28) and recently according to their phylogenetic relationships (8). Much attention has been drawn to the 2-haloacid dehalogenases or halidohydrolases. These are hydrolytic enzymes that cleave the halogen-carbon bond(s) in halogenated aliphatic acids, yielding hydroxy-or oxoalkanoic acids from a substrate with a mono-or disubstitution, respectively (7, 28). At least 11 2-haloacid dehalogenase genes have been isolated and sequenced. Comparative study on the amino acid sequences of these enzymes has exhibited 37 to 67% homology (17, 32). Among these enzymes three conserved motifs have been identified. These include residues 4 to 18 in motif 1, residues 105 to 123 in motif 2, and residues 139 to 194 in motif 3 (1). Motif 1 contains a highly conserved aspartate and a threonine, motif 2 contains a highly conserved hydroxy residue (serine or threonine), and motif 3 contains a highly conserved lysine and a pair of aspartates. These conserved motifs were expected to convey functions essential for catalysis. Site-directed mutagenesis had confirmed the role of these motifs in the activity of dehalogenase L-DEX-YL and dehalogenase IVa (DehIVa) (18; B. C. M. Pang and J. S. H. Tsang, unpublished data).Most dehalogenases were identified from microorganisms isolated from enrichment cultures using specific halogenated substrates (3, 27). These microorganisms are capable of utilizing the substrates as sole carbon and energy sources. Burkholderia cepacia MBA4, isola...

show abstract

Mutagenic analysis of the conserved residues in dehalogenase IVa ofBurkholderia cepaciaMBA4

Pang¹,

Tsang²

2001

View full text Add to dashboard Cite

Amino and carboxyl terminal deletion derivatives of dehalogenase IVa (DehIVa) of Burkholderia cepacia MBA4 were constructed and analyzed for enzyme activity and for protein integrity. The results suggested that the majority of the protein is indispensable. Point mutations on 29 conserved charged and/or polar residues were generated and characterized. Derivatives D11E, D11N, D11S and D181N were totally inactive while mutant N178D was defective in catalysis. Mutations of other conserved residues displayed varying effects. Mutation that enhances DehIVa activity has been shown to be inhibitory in other dehalogenase and essential conserved residues in DehIVa have been shown to be dispensable in others. This suggests there is no general rule for the importance of these conserved residues.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Benjamin C. M. Pang

Applicability of Two Commercially Available Kits for Forensic Identification of Saliva Stains

Identification of the Dimerization Domain of Dehalogenase IVa ofBurkholderia cepaciaMBA4

Mutagenic analysis of the conserved residues in dehalogenase IVa ofBurkholderia cepaciaMBA4

Contact Info

Product

Resources

About