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Whole-genome analysis of quorum-sensing Burkholderia sp. strain A9Chan, K., Chen, J.W., Tee, K.K., Chang, Chien-Yi, Yin, W., Chan, X. 03 May 2015 (has links)
Yes / Burkholderia spp. rely on N-acyl homoserine lactone as quorum-sensing signal molecules which coordinate their phenotype at the population level. In this work, we present the whole genome of Burkholderia sp. strain A9, which enables the discovery of its N-acyl homoserine lactone synthase gene. / UM High Impact Research Grants (UM-MOHE HIR grant UM C/625/1/HIR/MOHE/CHAN/01, H-50001-A000001 and UMMOHE HIR Grant UM C/625/1/HIR/MOHE/CHAN/14/1, H-50001- A000027)
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Graph-Based Whole Genome PhylogenomicsFujimoto, Masaki Stanley 01 June 2020 (has links)
Understanding others is a deeply human urge basic in our existential quest. It requires knowing where someone has come from and where they sit amongst peers. Phylogenetic analysis and genome wide association studies seek to tell us where we’ve come from and where we are relative to one another through evolutionary history and genetic makeup. Current methods do not address the computational complexity caused by new forms of genomic data, namely long-read DNA sequencing and increased abundances of assembled genomes, that are becoming evermore abundant. To address this, we explore specialized data structures for storing and comparing genomic information. This work resulted in the creation of novel data structures for storing multiple genomes that can be used for identifying structural variations and other types of polymorphisms. Using these methods we illuminate the genetic history of organisms in our efforts to understand the world around us.
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Whole genome characterisation and engineering of chimaeric rotavirus-like particles using African rotavirus field strains / Khuzwayo Chidiwa JereJere, Khuzwayo Chidiwa January 2012 (has links)
Despite the global licensure of two live-attenuated rotavirus vaccines, Rotarix® and
RotaTeq®, rotavirus remains the major cause of severe dehydrating diarrhoea in young
mammals and the need for further development of additional rotavirus vaccines, especially
vaccines effective against regional strains in developing country settings, is increasing. The
design and formulation of new effective multivalent rotavirus vaccines is complicated by the
wide rotavirus strain diversity. Novel rotavirus strains emerge periodically due to the
propensity of rotaviruses to evolve using mechanisms such as point mutation, genome
segment reassortment, genome segment recombination and interspecies transmission.
Mutations occurring within the primer binding regions targeted by the current commonly
employed sequence-dependent genotyping techniques lead to difficulties in genotyping novel
mutant rotavirus strains. Therefore, use of sequence-independent techniques coupled with
online rotavirus genotyping tools will help to understand the complete epidemiology of the
circulating strains which, in turn, is vital for developing intervention measures such as
vaccine and anti-viral therapies.
In this study, sequence-independent cDNA synthesis that uses a single set of oligonucleotides
that do not require prior sequence knowledge of the rotavirus strains, 454® pyrosequencing,
and an online rotavirus genotyping tool, RotaC, were used to swiftly characterise the whole
genome of rotaviruses. The robustness of this approach was demonstrated in characterising
the complete genetic constellations and evolutionary origin of selected human rotavirus
strains that emerged in the past two decades worldwide, human rotavirus strains frequently
detected in Africa, and the whole genomes of some common strains frequently detected in
bovine species. Most of the characterised strains emerged either through intra- or interspecies
genome segment reassortment processes. The methods used in this study also allowed
determination of the whole consensus genome sequence of multiple rotavirus variants present
in a single stool sample and the elucidation of the evolutionary mechanisms that explained
their origin. The 454® pyrosequence-generated data revealed evidence of intergenotype
rotavirus genome segment recombination between the genome segments 6 (VP6), 8 (NSP2)
and 10 (NSP4) of Wa-like and DS-1-like origin. The use of next generation sequencing technology combined with sequence-independent
amplification of the rotavirus genomes allowed the determination of the consensus nucleotide
sequence for each of the genome segments of the selected study strains directly from stool
sample.
The consensus nucleotide sequences of the genome segments encoding VP2, VP4, VP6 and
VP7 of some of the study strains were codon optimised for insect cell expression and used to
generate recombinant baculoviruses. The Bac-to-Bac baculovirus expression system was used
to generate chimaeric rotavirus virus-like particles (RV-VLPs). These chimaeric RV-VLPs
contained inner capsids (VP2 and VP6) derived from a South African RVA/Humanwt/
ZAF/GR10924/1999/G9P[6] strain, on to which outer capsid layer proteins composed of
various combinations of VP4 and VP7 were assembled. The outer capsid proteins were
derived from the dsRNA of G2, G8, G9 or G12 strains associated with either P[4], P[6] or
P[8] genotypes that were directly extracted from human stool faecal specimens. The
structures of these chimaeric RV-VLPs were morphologically evaluated using transmission
electron microscopy (TEM). Based on the size and morphology of the particles, doublelayered
(dRV-VLPs) and triple-layered RV-VLPs (tRV-VLPs) were produced. Recombinant
rotavirus proteins readily assembled into dRV-VLPs, whereas approximately 10 – 30% of the
assembled RV-VLPs from insect expressed recombinant VP2/6/7/4 were chimaeric tRVVLPs.
These RV-VLPs will be evaluated in future animal studies as potential non-live
rotavirus vaccine candidates. The novel approach of producing RV-VLPs introduced in this
study, namely by using the consensus nucleotide sequence derived from dsRNA extracted
directly from clinical specimens, should speed up vaccine research and development by
bypassing the need to adapt the viruses to tissue culture and circumventing some other
problems associated with cell culture adaptation as well. Thus, it is now possible to generate
RV-VLPs for evaluation as non-live vaccine candidates for any human or animal field
rotavirus strain. / Thesis (PhD (Biochemistry))--North-West University, Potchefstroom Campus, 2012
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Whole genome characterisation and engineering of chimaeric rotavirus-like particles using African rotavirus field strains / Khuzwayo Chidiwa JereJere, Khuzwayo Chidiwa January 2012 (has links)
Despite the global licensure of two live-attenuated rotavirus vaccines, Rotarix® and
RotaTeq®, rotavirus remains the major cause of severe dehydrating diarrhoea in young
mammals and the need for further development of additional rotavirus vaccines, especially
vaccines effective against regional strains in developing country settings, is increasing. The
design and formulation of new effective multivalent rotavirus vaccines is complicated by the
wide rotavirus strain diversity. Novel rotavirus strains emerge periodically due to the
propensity of rotaviruses to evolve using mechanisms such as point mutation, genome
segment reassortment, genome segment recombination and interspecies transmission.
Mutations occurring within the primer binding regions targeted by the current commonly
employed sequence-dependent genotyping techniques lead to difficulties in genotyping novel
mutant rotavirus strains. Therefore, use of sequence-independent techniques coupled with
online rotavirus genotyping tools will help to understand the complete epidemiology of the
circulating strains which, in turn, is vital for developing intervention measures such as
vaccine and anti-viral therapies.
In this study, sequence-independent cDNA synthesis that uses a single set of oligonucleotides
that do not require prior sequence knowledge of the rotavirus strains, 454® pyrosequencing,
and an online rotavirus genotyping tool, RotaC, were used to swiftly characterise the whole
genome of rotaviruses. The robustness of this approach was demonstrated in characterising
the complete genetic constellations and evolutionary origin of selected human rotavirus
strains that emerged in the past two decades worldwide, human rotavirus strains frequently
detected in Africa, and the whole genomes of some common strains frequently detected in
bovine species. Most of the characterised strains emerged either through intra- or interspecies
genome segment reassortment processes. The methods used in this study also allowed
determination of the whole consensus genome sequence of multiple rotavirus variants present
in a single stool sample and the elucidation of the evolutionary mechanisms that explained
their origin. The 454® pyrosequence-generated data revealed evidence of intergenotype
rotavirus genome segment recombination between the genome segments 6 (VP6), 8 (NSP2)
and 10 (NSP4) of Wa-like and DS-1-like origin. The use of next generation sequencing technology combined with sequence-independent
amplification of the rotavirus genomes allowed the determination of the consensus nucleotide
sequence for each of the genome segments of the selected study strains directly from stool
sample.
The consensus nucleotide sequences of the genome segments encoding VP2, VP4, VP6 and
VP7 of some of the study strains were codon optimised for insect cell expression and used to
generate recombinant baculoviruses. The Bac-to-Bac baculovirus expression system was used
to generate chimaeric rotavirus virus-like particles (RV-VLPs). These chimaeric RV-VLPs
contained inner capsids (VP2 and VP6) derived from a South African RVA/Humanwt/
ZAF/GR10924/1999/G9P[6] strain, on to which outer capsid layer proteins composed of
various combinations of VP4 and VP7 were assembled. The outer capsid proteins were
derived from the dsRNA of G2, G8, G9 or G12 strains associated with either P[4], P[6] or
P[8] genotypes that were directly extracted from human stool faecal specimens. The
structures of these chimaeric RV-VLPs were morphologically evaluated using transmission
electron microscopy (TEM). Based on the size and morphology of the particles, doublelayered
(dRV-VLPs) and triple-layered RV-VLPs (tRV-VLPs) were produced. Recombinant
rotavirus proteins readily assembled into dRV-VLPs, whereas approximately 10 – 30% of the
assembled RV-VLPs from insect expressed recombinant VP2/6/7/4 were chimaeric tRVVLPs.
These RV-VLPs will be evaluated in future animal studies as potential non-live
rotavirus vaccine candidates. The novel approach of producing RV-VLPs introduced in this
study, namely by using the consensus nucleotide sequence derived from dsRNA extracted
directly from clinical specimens, should speed up vaccine research and development by
bypassing the need to adapt the viruses to tissue culture and circumventing some other
problems associated with cell culture adaptation as well. Thus, it is now possible to generate
RV-VLPs for evaluation as non-live vaccine candidates for any human or animal field
rotavirus strain. / Thesis (PhD (Biochemistry))--North-West University, Potchefstroom Campus, 2012
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Exploring the impact of estrogen signaling on gut microbiota diversity in a diet-induced obesity and a colorectal cancer modelStepanauskaite, Lina January 2021 (has links)
Colorectal cancer (CRC) is one of the most common and deadly cancers in the western world. The incidence of CRC shows the tendency to rise with the increase of obesity, which is caused by current increase in fat intake, suggesting the correlation between CRC and high-fat diet (HFD). HFD-induced obesity causes gut inflammation which is also noticed in inflammatory bowel diseases (IBD) and CRC and can be seen as an important factor in CRC development. Moreover, it has been demonstrated, that while both sexes are at risk of developing CRC, men have higher incidence compared to women, showing the protective effect of estrogen. In addition, since gut microbiome is first to respond to colon inflammation, we hypothesized, that intestinal estrogen signaling could contribute to reduced initiation and progression of colon cancer by modifying the microbiota composition. For that, two experiments with two different mouse models were conducted. First part of the study concentrated on the effect of (HFD, 60%) and different estrogenic ligands (17-β estradiol, and DPN) on microbiota. Bioinformatics analysis on whole genome sequencing (WGS) data and qPCR validation were used as the methods. Here we found that estrogenic ligands achieved restoration of close-to-normal microflora after significant change initiated by HFD. We also found that microbiome in males showed stronger reaction to HFD than female microbiome, implying protective actions in females. Furthermore, the effect of ligands also proved to be stronger in males. Second part of the study concentrated on the effect of estrogen receptor β (ERβ) on microbiota for which ERβ knockout mice were used in addition to cancerogenic AOM/DSS treatment. Bioinformatics analysis on WGS data was used as the method. We found that female mice were more affected by AOM/DSS treatment compared to males, especially the mice with knockout gene. The genotype alone, however, resulted in very few differences. In summary, this project shows the effect of HFD, estrogen and ERβ expression on gut microbiota diversity. It shows that microbiome of male mice is more susceptible to dietary changes and estrogen supplementation. Likewise, it demonstrates, that the microbiome of females reacts strongly to combination of carcinogenic treatment and lack of iERβ.
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