Temporal and morphologic sequence of DNA replication in the mammalian chromosome complements.

Sinha, Anil K.

January 1965

No description available.

Chromosome replication.

DNA.

Genetics.

Genetics.

A cytogenetic study of the effects of pesticides.

Wuu, Kuang-Dong

January 1966

No description available.

Pesticides.

Cytogenetics.

Chromosome abnormalities.

Genetics.

IDENTIFICATION AND CHARACTERIZATION OF THE SINORHIZOBIUM MELILOTI CHROMOSOMAL ORIGIN OF REPLICATION AND THE REPLICATION INITIATOR DnaA

Sibley, Christopher D.

09 1900

DNA replication initiates at a precise location on the bacterial chromosome, the origin of replication (oriC). This work has localized the origin of DNA replication on the Sinorhizobium meliloti chromosome to a region spanning the hemE gene. A genetic dissection of the locus revealed that a much larger fragment of DNA (1802 bp) is required for a functional oriC than that of the other characterized alpha-proteobacterial chromosome origin from Caulobacter crescentus. Site-directed mutations of predicted DnaA binding sites has identified several essential elements for replication of the plasmid borne oriC. Mutations in these DnaA boxes also reduce transcription of hemE and thus it is likely that transcription of hemE and replication of the S. meliloti chromosome are coupled. The ColEl plasmid pUCP30T can autonomously replicate when the S. meliloti oriC is cloned into the suicide vector (pTH838) and can be efficiently mobilized out of S. meliloti into E. coli. The pTH838 oriC plasmid when transferred into S. meliloti results in both small and large colonies and both of these transconjugant classes take longer to form than the S. meliloti recA::Tn5 recipient. We attributed this phenotype to the very low copy number of the pTH838 plasmid which was determined to be 0.053 - 0.135 copies per chromosome. The DnaA protein responsible for replication initiation in many bacteria has been purified and used in electrophoretic mobility shift assays. The DnaA protein interacts specifically with sequences in the hemE - Y02793 intergenic region and upstream of the repA2 gene on the pSymA megaplasmid. The DnaA protein has also been implicated as a link between DNA replication and cell division in S. meliloti as overexpression of DnaA in both E. coll and S. meliloti results in filamentation. / Thesis / Master of Science (MSc)

DNA replication

SINORHIZOBIUM MELILOTI chromosome

Functional divergence between Tetrahymena telomere proteins: Potential role for POT1b in chromosome breakage and new telomere synthesis

Heyse, Serena R.

19 April 2011

No description available.

Biogeochemistry

Tetrahymena

telomere

chromosome breakage

Ancestry of the Indian Population Determined by Y Chromosome Markers

De, Jhilik

07 1900

Seven microsatellites, DYS 388, DYS 3891, DYS 389II, DYS 390, DYS 391, DYS 392 and DYS 393 and a biallelic locus DYS 271 were analyzed in the Indian population with the aim of understanding the relationships of the Indo-European and the Dravidian population of India with those of the European /Central Asian populations. The 116 Indian samples, used in the study, enjoy a wide geographical distribution and represents well the different religions and caste groups of India. Supporting previously published results, most variation is found between populations within continents than between continents. No significant differences were found between the different religious and caste groups of India with those of the World populations. All the alleles of the different markers are well represented in the different ethnic groups of India, and thus, does not support the popular belief that the highest diversity exists within the middle caste. Significant differences in the distribution of alleles are found in different regions of India especially between the North and the South. A phylogenetic relationship appears to exist between the Sindhis from South Pakistan with those of the South Indian population. This lends support to the belief that the present population from Sind might represent a remnant population of the original inhabitant of the region that was mainly pushed further to the Southern part of Subcontinent by later invasions. A phylogenetic relationship also exists between the Indian population and the Burushaski population from Northwest Pakistan and with the Kazakhs, Kirgiz and the Uighurs from Central Asia. This is in agreement with previously published results, and supports the occurrence of two main population movements from Central Asia into India at different time intervals that gave birth to the two main language families-the Dravidian and the Indo-European languages in India. / Thesis / Master of Science (MS)

India

ancestry

chromosome

marker

population

Comparative Analysis of Heterochromatin in the Anopheles gambiae Complex

Sharma, Atashi

10 May 2016

Mosquito borne diseases continue to be a big threat to human health worldwide. Despite using various vector control methods, we lose a great number of lives to this malicious disease in tropical and subtropical countries each year. Not surprisingly, mosquito is considered as the deadliest animal on the earth, because mortality rates from mosquito-vectored infections only lag behind other major diseases such as HIV and tuberculosis. Current approaches of vector control are mostly limited to using insecticidal bed nets, thus novel techniques are required to prevent a staggering loss to human health and quality of life. Advances in the genome sequencing in the past decade have helped to uncover numerous secrets of diverse genomes. The genome of malaria mosquito Anopheles gambiae was first sequenced in 2002 and since then has been updated to include additional scaffolds, their orientations and correction of mis-assemblies. Yet, the greatest challenge remains in assembling the heterochromatin regions, that are repeat rich part and contain relatively low-gene density. Although previously neglected by scientific studies due to its characteristic paucity of genes, heterochromatin is now recognized to be crucial for several processes such as cell viability, chromosome pairing, meiosis, longevity etc. It is therefore not surprising that heterochromatin comprises of a significant portion of the genome in many species. The efforts to analyze the genome of malaria mosquito in order to identify potential new leads for vector control warrant a better understanding of the heterochromatin. Mosquitoes diploid chromosome number equal 6. While autosomes 2 and 3 are submetacentric and present in both sexes, females are homogametic with XX and males are heterogametic with XY sex chromosomes. To achieve a better understanding of the Anopheles heterochromatin, we investigated heterochromatic region of the X chromosome. Despite one arm of the X chromosome being completely heterochromatic, few studies have investigated the molecular content of this region. Protocols were developed for performing fluorescent in situ hybridization (FISH) on mitotic X chromosomes in An. gambiae. Using cytogenetics and molecular biology techniques, we characterized the X chromosome heterochromatin in members of the An. gambiae complex. Specific satellite DNA and 18S ribosomal DNA probes (major components of heterochromatin) were mapped to X chromosomes enabling their differentiation and characterization in the An. gambiae complex. Microarray studies have highlighted the importance of X chromosome during investigation of nascent species An. gambiae and An. coluzzii. Here for the first time qualitative differences in heterochromatin in between nascent species are described. Cytogenetic idiograms are developed as to include the molecular and qualitative differences between the species of the An. gambiae complex. These idiograms are expected to provide a better resolution of the X chromosome heterochromatin for comparison in major malaria vectors, closing some of the gaps present due to poor sequencing of unassembled repeat rich regions in An. gambiae complex. The current understanding of Y chromosome for transgenic manipulation is poor and limited to very few genes. Due to its near total heterochromatic composition, it is the hardest part of the genome to assemble. In collaboration with other researchers, the Y chromosome content was characterized among sibling species of the An. gambiae complex. Our data revealed the swift changes the Y chromosome has undergone in a relatively short evolutionary time period. These include a rapid rate of turnover not only in heterochromatin but also in euchromatin. In addition to previously described repeats, a novel highly repetitive element called Zanzibar was discovered and mapped to the males of various Anopheles sibling species. Our data can form the basis for evolutionary studies in heterochromatin for male mosquitoes within the An. gambiae complex while also help identify novel targets to create successful transgenic male populations. Along with the X chromosome heterochromatin, to our knowledge this is the most extensive contribution to improve the understanding of mitotic chromosome heterochromatin in malaria mosquitoes. This study also investigated if epigenetics play role in mosquito development, fecundity and heterochromatin formation. DNA methylation, histone modifications and small noncoding RNAs are among the epigenetic mechanisms scrutinized in mammals. However, knowledge about epigenetic mechanisms and their effects is sparse in mosquitoes. A protocol for testing the various effects of epigenetics on different stages of malaria mosquito was developed. An epigenetic drug was utilized to probe the effects on immature and adult malaria mosquitoes. Different concentrations of DZNep, a histone methyltransferase inhibitor, were administered to An. coluzzii larvae. Total survivorship and pupation were compared for treated and untreated groups. The drug was also administered to adult blood feeding females to determine any effects on fecundity and egg morphology, revealing a negative association with an increase in drug concentration. A dose dependent decrease in SAH hydrolase concentration in An. coluzzii was also noticed. These results suggest epigenetics plays a critical role in mosquito pupation and ovarian development. Our work lays the groundwork for future investigations into the field of epigenetics in mosquitoes by revealing its effect on several important developmental stages in malaria mosquitoes. Although genomics and next-gen sequencing technology have come a long way in the last decade since the first Anopheles genome was sequenced, considerable gaps still exist in case characterization of heterochromatin function in an organism. Through our work, we have endeavored to elucidate a few of the major roles that heterochromatin may play in organization, evolution and adaptation of the malaria mosquitoes. / Ph. D.

Anopheles gambiae

heterochromatin

sex chromosome

How Chromosome-Nuclear Envelope Attachments Affect 3D Genome Organization

Kinney, Nicholas A.

04 April 2016

The length of eukaryotic chromosomes is many times longer than the nucleus diameter in most cells; thus, their confinement depends on adopting highly folded configurations. Remarkably, these configurations are non-random and may be important for gene expression and regulation. Thus, genome sequences must be understood in the context of their 3D organization which critically influences the flow of information. The effort to understand this added complexity now encompasses an entire field of chromosome biology and is reshaping the traditional concept of the central dogma. Although little is known about the principles which govern chromosome folding and influence gene regulation, the nuclear envelope is expected to play a significant role since it serves as the physical boundary preventing chromosome from freely diffusing in the cell cytosol. Moreover, experiments suggest that the nuclear envelope engages chromosomes actively by anchoring specific loci and limiting their range of motion. The broad goal of the research presented in this dissertation is to advance our understanding of 3D genome organization with an emphasis on determining the role of the nuclear envelope. / Ph. D.

chromosome organization and dynamics

Drosophila melanogaster

Investigating aneuploidy's role in cancer cell fitness under various conditions of stress

Rutledge, Samuel Drew

14 August 2015

The gain or loss of whole chromosomes, known as aneuploidy, is a distinguishing feature of cancer cells. The rapid gain or loss of hundreds of genes dramatically alters a cell's genomic landscape and is typically detrimental to cell survival under normal conditions. However, cancer cells display enhanced proliferation and overcome multiple conditions of stress, suggesting aneuploidy may increase cellular fitness. Furthermore, distinct patterns of aneuploidy are found in cancers from different anatomical sites. Despite these observations, scant research has sought to examine the role of aneuploidy in cancer, or determine whether aneuploidy is a driver or passenger mutation, or why certain aneuploidies appear to be selected for and others against. To investigate the role of aneuploidy in cancer cell fitness, we utilized the diploid colorectal cancer (CRC) cell line DLD1 and two trisomic variants carrying an extra copy of either chromosome 7 or chromosome 13, two trisomies frequently seen in colorectal cancer. To assess fitness, we compared proliferation, anchorage-independence, and invasiveness in aneuploid CRC cells versus their diploid counterpart when grown under various culture conditions, including regular media, serum-free media, cytotoxic drug-containing media, and hypoxia. We found that aneuploid cells proliferated better than diploid cells under all but standard culture conditions. Moreover, regardless of growth condition, we found that aneuploid CRC cells formed larger and more numerous colonies in soft agar (anchorage-independent growth), and displayed greater invasiveness (assessed by matrigel invasion assay). Taken together, these results indicate that aneuploidy enhances the fitness of CRC cells under stressful conditions that are likely to occur in the tumor microenvironment. / Master of Science

Aneuploidy

cancer

chromosome instability

fitness

The identification and characterization of new y-chromosome short tandem repeat LOCI and a closer look at the YpXq 3-4mb homology block

Maybruck, Julie Lauren

20 July 2004

No description available.

Biology, Genetics

Y-chromosome

Y-chromosome short tandem repeats

Y-STRs

Y-chromosome microsatellites

Intégration fonctionnelle du complexe SMC chez bacillus subtilis : étude de suppresseurs / Functional integration of SMC protein in bacillus subtilus : suppressors characterization

Benoist, Camille

21 November 2011

Les protéines de type SMC (pour « Structural Maintenance of Chromosomes ») sont impliquées dans différents aspects de la dynamique du chromosome tels que la condensation, la ségrégation et la réparation de l’ADN. En effet, une souche de Bacillus subtilis dépourvue de SMC présente des phénotypes sévères tels qu’un défaut dans la compaction et le partitionnement du chromosome, une sensibilité accrue à certaines drogues endommageant l’ADN ainsi qu’à des inhibiteurs de gyrase. Une telle souche est incapable de croître en condition de croissance rapide. Pour comprendre l’étendue des phénotypes associés à la perte de ce gène, une identification génétique de nouveaux partenaires a été entreprise : des suppresseurs spontanés de la délétion de smc ont été isolés en condition de croissance rapide. Différentes classes de suppresseurs ont été mises en évidence, suggérant que différentes mutations pouvaient restaurer la viabilité d’une souche dépourvue de SMC. Leur caractérisation a révélé qu'ils permettaient de restaurer une partie des défauts que présente le mutant Δsmc, en particulier la résistance aux inhibiteurs de gyrase, et semblaient limiter la formation de cassures de l'ADN. Par séquençage du génome complet des suppresseurs, certaines de ces mutations ont pu être identifiées, et semblent causer une perturbation de la voie de biosynthèse des ARN de transfert. Cette perturbation permet de restaurer le défaut de croissance, et ce plus efficacement qu’une inhibition de la traduction par des drogues comme le chloramphénicol, ou par la réduction du pool de nucléotides par l’hydroxyurée. L’ensemble de ces résultats suggère que la réponse stringente pourrait être en partie responsable du phénotype suppresseur. Il est proposé qu’en dehors de la compaction du chromosome, le complexe SMC soit directement impliqué dans le maintien de l’intégrité des fourches de réplication. / SMC proteins (for "Structural Maintenance of Chromosomes") are involved in different aspects of chromosome dynamic such as condensation, segregation and DNA repair. Indeed, a Bacillus subtilis mutant lacking the SMC complex shows severe phenotypes such as defects in condensation and chromosome partitioning, an increase in sensitivity DNA damaging drugs or gyrase inhibitors. The viability of such strain is limited to conditions of slow growth. To understand the range of phenotypes associated with loss of this gene, a genetic identification of new partners was undertaken: spontaneous suppressors of smc deletion were isolated in rapid growth conditions. Different classes of suppressors have been identified, suggesting that different mutations could restore the viability of a strain lacking SMC complex. Characterization of suppressors revealed they can restore some of the defects shown in Δsmc mutant, particularly resistance to gyrase inhibitors, and seemed to limit the formation of DNA breaks. By sequencing the complete genome of suppressors, some of these mutations have been identified and cause an alteration of the biosynthetic pathway of transfer RNA. This disruption can restore the growth defect more efficiently than inhibition of translation by drugs such as chloramphenicol, or by reducing the pool of nucleotides by hydroxyurea. Taken together, these results suggest that the stringent response could be partly responsible for the suppressor phenotype. It is proposed that apart from the compaction of the chromosome, the SMC complex is directly involved in maintaining the integrity of replication forks.

Protéine SMC

Compaction de l’ADN

Organisation du chromosome

Réplication

Réparation

Mutations Suppressives

Structural Maintenance of Chromosome

Chromosome Condensation and Organization

Segregation

Repair

Replication

Suppressors