1.Progress in The Formation and Transfer of Agrobacterium T-complex
Minliang GUO ; Diankun GAO ; Yingshan JIN
Progress in Biochemistry and Biophysics 2009;36(11):1408-1414
Agrobacterium tumefaciens can transfer a DNA fragment (T-DNA) from its Ti plasmid to host plant and integrate the T-DNA fragment into host cell nuclear genome. Agrobacterium-mediated T-DNA transfer is the most widely used genetic transformation method for plant. The T-DNA is delivered in the form of single-stranded T-DNA-protein complex (T-complex) by the polar-located Agrobacterium type Ⅳ secretion system (T4SS) to the host cell. T4SS is ancestrally related to bacterial conjugation machines and still used by many plasmids as conjugation channel. Moreover, T4SS is also the secretion channel that used by many human bacterial pathogens to inject the effector proteins to host cells, thus contributing directly to the bacterial pathogenicity. Therefore, in addition to the technical application as a gene vector to create transgenic plants, Agrobacterium-mediated T-DNA transfer also provides a fascinating model system to study the intercellular transfer of macromolecules. The study on the molecular mechanism of T-DNA transfer arouses extensive interest and progresses rapidly in recent years. Here the recent advances in research on T-complex formation and T-complex transfer in Agrobacterium cell are reviewed.
2.Development and Optimization of Method for Generating Unmarked A. tumefaciens Mutants
Minliang GUO ; Qing ZHU ; Diankun GAO
Progress in Biochemistry and Biophysics 2009;36(5):556-565
Agrobacterium tumefaciens possesses many advantages as a model bacterium for the study of a wide variety of biological processes. Gene disruption or inactivation is a powerful and direct tool for investigation of in vivo gene functions. The intensive study ofA. tumefaciens has increased the need for simple and highly efficient procedures to manipulate its genome. The sacB gene was used as a counterselectable marker to develop a gene replacement procedure that allows precise insertion, deletion, and allele substitution of any gene sequence in A. tumefaciens without altering the genome in any other way. A kanamycin resistance (KmR) cassette was constructed to the suicide vector as the positive selection marker. The suicide plasmid containing DNA fragments homologous to the flanking sequences of the target gene was integrated into the recipient cell genome at the target gene locus by intermolecular homologous recombination, generating the KmR-single cross-over colonies. The effect of homologous sequence length on the intermolecular homologous recombination was analyzed. The second cross-over colonies generated by intramolecular homologous recombination occurring between two tandem repeats were simply screened out by counter-selection of sacB. Data showed that the intervening sequence length between two repeats significantly affected the intramolecular homologous recombination frequency in A. tumefaciens, indicating that A. tumefaciens adopted the homologous recombination mechanism similar to that in E. coli. All these results demonstrated that investigators could minimize the numbers of colonies to be analyzed and reduce the overall workload by optimizing the relative length of two homologous fragments and using the specific type of single cross-over transformants for screening the second cross-over event. This mutagenesis strategy had successfully been used to generate the double unmarked △vbp2△vbp3 mutant in two A. tumefaciens strains.
3.The Relationship Between the Reversed Phase High Performance Liquid Chromatographic Retention Behavior of Prion 113-120 Peptide and Stability of Conformation
T.w.hearn MILTON ; Sitaram BALVANT ; Minliang GUO ; T.whearn MILTON
Chinese Journal of Analytical Chemistry 2001;29(6):633-636
Prions are the infectious agents of the transmissible spongiform encephalopathies. The sequence 113-120 of Prion proteins is thought to be the most highly amyloidogenic peptide. The chromatographic retention behaviors of Prion 113-120 peptide on C18-column were studied under reversed-phase high-performance liquid chromatographic conditions with isocratic elution. When aquo-acetonitrile mobile phases were used, the temperature-depending relationships of lnkw and Van′t Hoff plots of both peptides with free termini and with capped termini were simple. The results demonstrated that the conformations adopted by both peptides in aquo-acetonitrile mobile phases were relatively stable, and could not be perturbed by temperature. When aquo-methanol mobile phases were used, the temperature-depending relationships of lnkw and Van′t Hoff plots of peptide with free termini were more complicated than that of peptide with capped termini. These results demonstrated that the conformations adopted by peptide with free termini in aquo-methanol mobile phases were relatively unstable and could be perturbed by circumstance. All these results further demonstrate that the sequence 113-120 could play an important role in the conformational change of Prion proteins.