Characterization of conjugation-like gene transfer process in bacillus thuringiensis subspecies israelensis
1
Issued Date
2023
Copyright Date
1991
Language
eng
File Type
application/pdf
No. of Pages/File Size
xxix, 235 leaves : ill. (some col.)
Access Rights
restricted access
Rights Holder(s)
Mahidol University
Bibliographic Citation
Thesis (Ph.D. (Microbiology))--Mahidol University, 1991
Suggested Citation
Chanpen Wiwat Characterization of conjugation-like gene transfer process in bacillus thuringiensis subspecies israelensis. Thesis (Ph.D. (Microbiology))--Mahidol University, 1991. Retrieved from: https://repository.li.mahidol.ac.th/handle/123456789/89651
Title
Characterization of conjugation-like gene transfer process in bacillus thuringiensis subspecies israelensis
Alternative Title(s)
คุณสมบัติของขบวนการถ่ายทอดยีนโดยวิธี Conjugation-like ใน Bacillus thuringiensis subspecies israelensis
Author(s)
Abstract
The plasmids pBC16 and pC194 from Bacillus thuringiensis subsp. israelensis strains AO84-16-194 were transferred to 25 subspecies of B. thuringsensis by a conjugation-like process using broth mating technique. The frequencies of transfer varied considerably between different mating pairs, ranging from 1.1x10(-9) to 9.8x10(-5). Additionally, chromosomal transfer could also be demonstrated in ten B. thuringiensis subspecies with very low frequencies (4.3x10 9 to 3.7x10(-7)). The matings within a group of eight subspecies gave higher frequencies of transfer than the matings between the subspecies indicating that the frequencies of transfer was higher in the intrasubspecific than the intersubspecific transfers. The results indicated that the capability to transfer plasmids among these various subspecies did not depend on the presence of specific plasmids nor specific patterns in either donor or recipient cells. The cell clumping phenomena appeared to be specific between certain pairs of B. thuringiensis . Among few strains being tested, wild type strain 4Q2 and its cured strains 4Q272 and c4Q272, clumping could be divided into two groups i.e. clumping group I (4Q2) and clumping group II (4Q272 and c4Q272). The transfer of pBC16 plasmid from strain A084-16-194 into strain c4Q272 were found to be inhibited by 0.2 mM EDTA, 0 25 M MgCl(,2), 0.5 M MgSO(,4) and 0.05 M CaCl(,2). These chemicals, at the same concentrations, could be demonstrated to reduce (EDTA and MgCl(,2)) or inhibit (MgSO(,4)) the extent of clumping between strain A084-16-194 and c4Q272. Beside the clumping phenomena, it was also found that strain in clumping group I (4Q2) possessed high level of penicillin G resistance. Strain 4Q2 was resistant to penicillin G at MIC of 12.5 mg, but strains in clumping group II (4Q272 and c4Q272) were quite susceptible to penicillin G with MIC of 0 06 and 0 03 ug, respectively. Extraction of S-layer protein by treatment with a indicated that there appeared to be extra-high molecular weight protein in the extracts obtained from B. t. i . strain 4Q2. This protein band was found to be absent in strains 4Q272 and c4Q272. The antibody toward this S-layer protein was prepared and used for locating of S-layer protein on B. t. i. cell by using indirect immunofluorescent technique. immunoflurorescent reaction and Western blot analysis confirmed the specificity of the anti-S-layer protein antibody. It was found that the antibody against 4Q2 Slayer protein inhibited the plasmid transfer via the conjugation-like process between B. t. i . strain 4Q2-16 and c4Q272. The frequencies of transfer of pBC16 plasmid was found to reduce from 9.7x10(-6) to less than 1x10(-8) in the absence and presence of anti 4Q2-S-layer protein antibody, respectively. This antibody could also found to reduce the frequencies of transfer of pBC16 plasmid via conjugation-like process between B. t. i. strain-A084-16-194 and c4Q272. The frequencies of transfer between the two latter strains were found to reduce from 2.2x10(5) to 1.2xl0(-6) in the absence and presence of the antibody, respectively. Using antibody detection technique, S-layer protein gene from B.t.i. strain 4Q2 was cloned in pBluescriptKS and pUC12 of Escherichia coli DH5a. Three positive clones namely pAC1, pAC2 and pAC3, containing the genes encoding for the S-layer protein were obtained. The pAC1 clone was subsequently subcloned to pAC11, pAC111 and pAC112. The presence of gene product was confirmed by using Western blot analysis. The 1.5 kb fragment of the pAC111 plasmid was sequence by using dideoxy chain-termination Method. The nucleotide sequence showed the putative initiation codon (ATG), -10, -35 and Shine-Dalgarno sequence. Southern blot hybridizations using 5.2 kb fragment of the pAC11 as biotinylated probe indicated that the S-layer protein gene was located on chromosome of B.t.i. strains 4Q2, 4Q272 and c4Q272.
Degree Name
Doctor of Philosophy
Degree Level
Doctoral Degree
Degree Department
Faculty of Science
Degree Discipline
Microbiology
Degree Grantor(s)
Mahidol University