Your search keyword '"Saufung Ma"' showing total 3 results

1. SPC update: Advocate General opines on the meaning of 'protected by'

Author

Belinda Lavin and Saufung Ma

Subjects

0301 basic medicine, Patent law, MEDLINE, Legislation, General Medicine, Legislation, Drug, Advocate General, Patents as Topic, 03 medical and health sciences, 030104 developmental biology, Political science, Law, Drug approval, Meaning (existential), Drug Approval

Published

2018

2. The Family of Cold Shock Proteins of Bacillus subtilis

Author

Mohamed A. Marahiel, Saufung Ma, Peter L. Graumann, Thomas Schindler, Franz X. Schmid, and Dieter Perl

Subjects

Circular dichroism, Cell Biology, Bacillus subtilis, Biology, Cold-shock domain, Ligand (biochemistry), biology.organism_classification, Biochemistry, Protein structure, Nucleic acid, Native state, Protein folding, Molecular Biology

Abstract

Bacillus subtilis possesses three homologous small cold shock proteins (CSPs; CspB, CspC, CspD, sequence identity >72%). They share a similar beta-sheet structure, as shown by circular dichroism, and have a very low conformational stability, with CspC being the least stable. Similar to CspB, CspC and CspD unfold and refold extremely fast in a N U two-state reaction with average lifetimes of only 100-150 ms for the native state and 1-6 ms for the unfolded states at 25 degreesC. As a consequence of their low stability and low kinetic protection against unfolding, all three cold shock proteins are rapidly degraded by proteases in vitro. Analysis of the CSP stabilities in vivo by pulse-chase experiments revealed that CspB and CspD are stable during logarithmic growth at 37 degreesC as well as after cold shock. The cellular half-life of CspC is shortened at 37 degreesC, but under cold shock conditions CspC becomes stable. The proteolytic susceptibility of the CSPs in vitro was strongly reduced in the presence of a nucleic acid ligand, suggesting that the observed stabilization of CSPs in vivo is mediated by binding to their substrate mRNA at 37 degreesC and, in particular, under cold shock conditions.

Published

1999

3. Leishmania-Specific Surface Antigens Show Sub-Genus Sequence Variation and Immune Recognition

Author

Andrew P. Jackson, Deborah F. Smith, Silvia R. B. Uliana, Michael R. Hodgkinson, Daniel P. Depledge, Saufung Ma, Barbara A. Smith, and Lorna MacLean

Subjects

Repetitive Sequences, Amino Acid, lcsh:Arctic medicine. Tropical medicine, Protein family, lcsh:RC955-962, 030231 tropical medicine, Protozoan Proteins, Antigens, Protozoan, Synteny, Genome, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, Trypanosomatina, Leishmania major, Genetics and Genomics/Genomics, Amastigote, Molecular Biology, Gene, Cell Biology/Gene Expression, 030304 developmental biology, Leishmania, Genetics, 0303 health sciences, Sequence Homology, Amino Acid, biology, Gene Expression Profiling, Macrophages, lcsh:Public aspects of medicine, Infectious Diseases/Protozoal Infections, Public Health, Environmental and Occupational Health, Genetic Variation, lcsh:RA1-1270, biology.organism_classification, 3. Good health, Infectious Diseases, Membrane protein, Antigens, Surface, Chromosomal region, Research Article

Abstract

Background A family of hydrophilic acylated surface (HASP) proteins, containing extensive and variant amino acid repeats, is expressed at the plasma membrane in infective extracellular (metacyclic) and intracellular (amastigote) stages of Old World Leishmania species. While HASPs are antigenic in the host and can induce protective immune responses, the biological functions of these Leishmania-specific proteins remain unresolved. Previous genome analysis has suggested that parasites of the sub-genus Leishmania (Viannia) have lost HASP genes from their genomes. Methods/Principal Findings We have used molecular and cellular methods to analyse HASP expression in New World Leishmania mexicana complex species and show that, unlike in L. major, these proteins are expressed predominantly following differentiation into amastigotes within macrophages. Further genome analysis has revealed that the L. (Viannia) species, L. (V.) braziliensis, does express HASP-like proteins of low amino acid similarity but with similar biochemical characteristics, from genes present on a region of chromosome 23 that is syntenic with the HASP/SHERP locus in Old World Leishmania species and the L. (L.) mexicana complex. A related gene is also present in Leptomonas seymouri and this may represent the ancestral copy of these Leishmania-genus specific sequences. The L. braziliensis HASP-like proteins (named the orthologous (o) HASPs) are predominantly expressed on the plasma membrane in amastigotes and are recognised by immune sera taken from 4 out of 6 leishmaniasis patients tested in an endemic region of Brazil. Analysis of the repetitive domains of the oHASPs has shown considerable genetic variation in parasite isolates taken from the same patients, suggesting that antigenic change may play a role in immune recognition of this protein family. Conclusions/Significance These findings confirm that antigenic hydrophilic acylated proteins are expressed from genes in the same chromosomal region in species across the genus Leishmania. These proteins are surface-exposed on amastigotes (although L. (L.) major parasites also express HASPB on the metacyclic plasma membrane). The central repetitive domains of the HASPs are highly variant in their amino acid sequences, both within and between species, consistent with a role in immune recognition in the host., Author Summary Single-celled Leishmania parasites, transmitted by sand flies, infect humans and other mammals in many tropical and sub-tropical regions, giving rise to a spectrum of diseases called the leishmaniases. Species of parasite within the Leishmania genus can be divided into two groups (referred to as sub-genera) that are separated by up to 100 million years of evolution yet are highly related at the genome level. Our research is focused on identifying gene differences between these sub-genera that may identify proteins that impact on the transmission and pathogenicity of different Leishmania species. Here we report the presence of a highly-variant genomic locus (OHL) that was previously described as absent in parasites of the L. (Viannia) subgenus (on the basis of lack of key genes) but is present and well-characterised (as the LmcDNA16 locus) in all members of the alternative subgenus, L. (Leishmania). We demonstrate that the proteins encoded within the LmcDNA16 and OHL loci are similar in their structure and surface localisation in mammalian-infective amastigotes, despite significant differences in their DNA sequences. Most importantly, we demonstrate that the OHL locus proteins, like the HASP proteins from the LmcDNA16 locus, contain highly variable amino acid repeats that are antigenic in man and may therefore contribute to future vaccine development.

Published

2010