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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
31

Thermus thermophilus Argonaute Functions in the Completion of DNA Replication

Jolly, Samson M. 20 May 2020 (has links)
Argonautes (AGOs) are present in all domains of life. Like their eukaryotic counterparts, archaeal and eubacterial AGOs adopt a similar global architecture and bind small nucleic acids. In many eukaryotes, AGOs, guided by short RNA sequences, defend cells against transposons and viruses. In the eubacterium Thermus thermophilus, the DNA-guided Argonaute TtAgo defends against transformation by DNA plasmids. We find that TtAgo also participates in DNA replication. In vivo, TtAgo binds 15–18 nt DNA guides derived from the chromosomal region where replication terminates, and TtAgo complexed to short DNA guides enhances target finding and prefers to bind targets with full complementarity. Additionally, TtAgo associates with proteins known to act in DNA replication. When gyrase, the sole T. thermophilus type II topoisomerase, is inhibited, TtAgo allows the bacterium to finish replicating its circular genome. In contrast, loss of both gyrase and TtAgo activity slows growth and produces long, segmented filaments in which the individual bacteria are linked by DNA. Furthermore, wild-type T. thermophilus outcompetes an otherwise isogenic strain lacking TtAgo. Finally, at physiologic temperature in vitro, we find TtAgo possesses highest affinity for fully complementary targets. We propose that terminus-derived guides binding in such a fashion localize TtAgo, and that the primary role of TtAgo is to help T. thermophilus disentangle the catenated circular chromosomes generated by DNA replication.
32

Structural Studies On Bovine Pancreatic Phospholipase A2 And Proteins Involved In Molybdenum Cofactor Biosynthesis

Kanaujia, Shankar Prasad 10 1900 (has links) (PDF)
We have carried out structural studies on bovine pancreatic phospholipase A2 (BPLA2) and two proteins involved in molybdenum cofactor (Moco) biosynthesis pathway. In addition, molecular-dynamics simulations and other analyses have been performed to corroborate the findings obtained from the crystal structures. Crystal structures of the three active-site mutants (H48N, D49N and D49K) of BPLA2 were determined to understand the mechanism by which the mutant H48N is able to catalyze the reaction of phospholipid hydrolysis and to see the effect of the loss of Ca 2+ ion in the active site of D49N and D49K mutants. We found that Asp49 could possibly play the role of a general base instead of His48 in the case of the H48N mutant. In the case of D49N and D49K mutants, the active site of the enzyme is perturbed, whereas the overall tertiary structure of these mutants is intact. In addition, a total of 24 invariant water molecules were identified in all of the crystal structures of BPLA2 available in its archive, PDB. Out of these, four water molecules are essential for the catalytic activity, whereas, the remaining water molecules play a role in the stability of the enzyme. In addition, structural studies on two proteins MoaC and MogA involved in Moco biosynthesis pathway have been carried out. For the first time, crystal structure of MoaC bound with GTP molecule has been reported. The gene id TTHA0341, which is mentioned as MoaB in the CMR database, was annotated as MogA based the comparative analysis of sequences and structures (with the present work and the structures available in the literature). The role of N-and C-termini of MoaB and MogA proteins were proposed that these residues might stabilize the substrate and/or product molecule in the active site. In addition, the residues involved in the oligomerization are compared with MD simulations. The molecular docking studies show that MoaB proteins show more preference to GTP than ATP. The comparison of the two active (MPT and AMP-binding) sites revealed that MPT-binding site is preferred over AMP-binding site for nucleotide binding.

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