Differential regulation of maternal and paternal chromosome condensation by A -kinase anchoring protein 95 in mitotic mouse zygotes

deRuyter, Jacqueline Leigh

01 January 2002

A-kinase anchoring protein AKAP95 is implicated in mitotic chromosome condensation by recruiting the condensin complex. Here, we report a differential regulation of condensation of maternal and paternal chromosomes mediated by AKAP95 and chromatin composition in mitotic mouse zygotes. AKAP95 is synthesized upon oocyte activation, targeted to the female pronucleus and specifically associates with maternal chromosomes at mitosis. Peptide competition and rescue experiments show that AKAP95 is required for recruitment of the mCAP-D2 condensin subunit to, and condensation of, maternal chromosomes. In contrast, AKAP95 is dispensable for mCAP-D2 targeting and condensation of paternal chromosomes. In vitro nuclear reconstitution and disassembly assays indicate that human hCAP-D2 targets protamine-containing chromatin independently of AKAP95, but requires AKAP95 for association with histone-containing chromosomes. We propose a concept whereby (1) recruitment of condensins to chromatin is affected by chromatin composition and (2) AKAP95 renders histone-containing chromatin permissive to condensin targeting.

Cellular biology|Genetics

Functional analysis of actin depolymerizing factor (ADF) in Rac -mediated pollen tube growth

Chen, Christine Yeihua

01 January 2002

Pollen tube elongation is a polarized cell growth process that directionally transports the male gametes from the stigma to the ovary for fertilization inside the ovules. Actin cytoskeleton is known to support this growth process and Rac-like GTPases have been shown recently to be important to regulate actin organization in elongating pollen tubes. Actin depolymerizing factor/cofilins (ADF/cofilins) are actinbinding proteins that increase actin dynamics by enhancing actin depolymerization. They are also responsible to regulate actin organization in Rac-mediated signaling. My thesis research focuses on establishing a signaling pathway from Rac GTPase to the actin cytoskeleton via the regulation of ADF/cofilins in tobacco pollen tubes. I have isolated and characterized cDNAs for tobacco pollen ADF, NtADFs, to study their function in pollen tube growth. First, I showed the activity of Rac-like GTPase is essential for pollen germination. Tobacco pollen germination and early pollen tube growth stimulates the activation of these small GTPases, the phosphorylation of NtADFs and an increase in the ratio of F- to G-actin. Moreover, over-production of a pollen-expressed Rac-like GTPase, NtRac1 from tobacco, induces increased ADF phosphorylation in transformed pollen and diminished the binding of GFP-tagged NtADF1 (GFP-NtADF1) to actin filaments in growing pollen tubes. These observations are consistent with the presence of a signaling pathway in pollen whereby Rac-like GTPase are stimulated by germination to activate a phosphorylation cascade that down regulates the activity of ADFs. This ultimately affects actin dynamics and growth characteristics in pollen tubes. Second, I also showed that NtADF activity is important for actin organization in pollen tube growth. When expressed in a moderate level in pollen tubes, GFP-NtADF1 associated prominently with a sub-apical actin mesh comprised of short dynamic actin filaments and with long dynamic actin cables in the shank. Over-producing NtADF1 resulted in the reduction of fine, axially oriented actin cables in transformed pollen tubes. Pollen tube growth was also inhibited by over-expressed NtADF1 in a dosage-dependent manner, suggesting proper regulation of actin turnover by NtADF1 is critical for the pollen tube growth process. In addition, NtADF1 activity is regulated by phosphorylation and pH. By creating mutants on the serine 6 residue on NtADF1, the result showed that the charge characteristics on serine 6 is important for NtADF1 interaction with actin and for its activity on pollen tube growth. By an in vitro depolymerization assay, recombinant NtADF1 depolymerizes actin more efficiently at pH 8 than pH6. This and localization of a NtADF1-rich actin mesh in the sub-apical region of elongating pollen tube, which is known to have a more alkaline cytoplasmic condition relative to the apex, suggest that interaction between NtADF1 and actin in this vicinity maybe critical for the pollen tube growth process. Finally, to examine a signaling pathway from Rac to ADF, I showed that overexpression of NtADF1 suppressed Rac-induced isotropic pollen tube growth. These observations demonstrating biologically that pollen ADFs mediate signaling activated by Rac-like GTPase to the actin cytoskeleton in pollen tube growth.* *This dissertation is a compound document (contains both a paper copy and a CD as part of the dissertation). The CD requires the following system requirements: QuickTime.

Molecular biology|Cellular biology

New insights in the Tssk family: Studies in the activity and function of the Testis Specific Serine Kinases

Sosnik, Julian

01 January 2009

The Testis Specific Serine Kinase (Tssk) family of proteins is a large group of kinases that present high level of conservation within paralogs, as well as within species. In addition, in all reported cases as well as in the analysis of expressed sequence tags available in databases, this family of proteins presents a very strict pattern of either testicular or male-gonadal expression. This high level of conservation prompted the postulate that these kinases ought to be important for either testicular function or fertilization. In this work we attempt a biochemical characterization of one family member (Tssk6) in the mouse. We also analyze the male infertility phenotype presented by mice null for Tssk6 revealing its requirement for actin dynamics and the relocalization of proteins necessary for gamete fusion. In this analysis we described Tssk6 as the second protein known to date to be necessary in the sperm for gamete fusion to take place. We also examined a novel member of the Tssk family in the mouse as well as ortholog proteins in two invertebrates (C. elegans and D. melanogaster ). Although our understanding of the function, activity and regulation of these kinases remains small, this work constitutes a significant advance towards the understanding of the identity of the Tssk family. The results that follow have far reaching effects that surpass the realm of the Tssk family. They influence the study of sperm biological processes like the changes in sperm cytoskeletal structures and the acrosome reaction. They also influence the field of developmental biology and scientist working in the molecular characterization of the process of gamete fusion and zygote formation. Lastly, the work here presented influences as well evolutionary developmental biology through the study of a highly conserved family of proteins that is essential for reproduction and could play a role in the process of speciation.

Cellular biology|Physiology

The isolation and characterization of heat shock protein Hsp12 in Lipomyces starkeyi

Mukwevho, Emmanuel

January 2002

Bibliography: leaves 60-72. / The stress response protein Hsp 12 is induced in S. cerevisiae cells upon exposure to salt stress, heat shock, ethanol, and upon entry to stationary phase (Mtwisha et aI., 1998). In this study, the occurrence of proteins related to Hsp12 was investigated in a number of yeasts (namely, Saccharomyces cerevisiae S288C, Schizosaccharomyces pombe, Debaromyces hansenii, Lipomyces starkeyi Y-2024, Saccharomyces cerevisiae IFO 23X7 (Kaokai), Zygosaccharomyces rouxii and Pichia sorbitophila. This was performed by selective protein extraction followed by SDS-P AGE and western blotting using a S. cerevisiae anti-Hsp 12 antibody. The results showed that almost all the yeasts investigated possessed a protein that had an identical migration to that of Hsp 12 with the exception of S. pombe, which contained a 9 kDa protein. Western blotting using the antiHsp 12 antibody cross-reacted only with the two S. cerevisiae species in addition to the 12 kDa protein from Lipomyces starkeyi of all the species investigated. MALDI-TOF peptide mass analysis after tryptic digestion of the L. starkeyi 12 kDa protein showed that a close sequence similarity existed to that of S. cerevisiae Hsp 12 and none to rest of the 12 kDa proteins isolated from all the other species investigated. In order to determine the sequence of the Hsp 12 protein, the L. starkeyi Hsp 12 gene was amplified using S. cerevisiae Hsp 12 primers. Gene sequencing of both S. cerevisiae and L. starkeyi Hsp 12 genes revealed three nucleotide differences existed between them. L. starkeyi Hsp 12 was found to be present in relatively small amounts during early growth stages but increased during log phase with a slight further increase during stationary phase. Increasing the salt concentration in the growth medium was found to induce Hsp 12. Increased levels of Hsp 12 appeared to confer a degree of protection during desiccation and subsequent rehydration of both L. starkeyi and S. cerevisiae.

Molecular and Cellular Biology

Expression and Stability of the Ion Channel CFTR in Inflammatory Lung Disease

Wellmerling, Jack Henry

January 2020

No description available.

Biology

Biophysics

Cellular Biology

Signaling pathways induced by SV40 and antibodies against MHC class I molecules

Dangoria, Nandita Sinha

01 January 1996

Cells respond to changes in their environment, or to mitogenic events at the cell surface by generating signals. Intracellular signals induced as a result, pass from the cell surface to the nucleus via a multitude of mediators, and terminate in cellular proliferation, differentiation or even cell death. Protein phosphorylation is an integral part of signal transduction, and protein kinases are important second messengers in signal transduction pathways. Binding of SV40 to its receptor on CV-1 cells induced signals that led to the upregulation of the primary response genes, c-myc and c-jun. The major histocompatibility complex class I proteins are an essential component of the SV40 receptor. Antibodies against the MHC class I proteins also led to the upregulation of c-myc and c-jun. The serine/threonine kinase Raf and the mitogen activated protein kinases (or MAPK), are highly conserved and play an integral role in signal transduction. Along with the GTP-binding protein p21Ras, the activation of Raf and MAPK form a central paradigm of cell signaling in eukaryotic cell. Activation of protein kinase C, another serine/threonine kinase has also been implied in certain systems. A study of the signaling pathways been elicited by extracellular SV40 imply protein kinase C to be involved in the upregulation of c-myc and c-jun, but provide no evidence for the involvement of either Raf, or MAPK. Antibodies against the MHC class I proteins, on the other hand, indicate the activation of protein kinase C, Raf and MAPK. Moreover, experimental data suggests the anti-class I-induced activation of protein kinase C to be dependent on tyrosine kinases that lie upstream of protein kinase C. Analysis of the signaling pathways being evoked by SV40 and antibodies against class I proteins suggests the existence of separate and distinct signaling pathways being induced by SV4O, and anti-MHC class I antibodies in CV-1 cells.

Molecular biology|Cellular biology

Cloning and characterization of phylogenetically conserved genes associated with programmed cell death in Manduca sexta and mouse

Sun, Danhui

01 January 1996

Programmed cell death (PCD) is an essential component of animal development and serves a variety of functions. The intersegmental muscles (ISMs) of the tobacco hawkmoth Manduco sexta provide a useful model system to study the molecular mechanisms that mediate PCD. The ISMs participate in the emergence behavior of the adult moth at the end of metamorphosis and then die during the subsequent 30 hours. In addition, several populations of interneurons and uniquely identified motor neurons also die following adult emergence. The trigger for this death is a decline in the circulating titer of the molting hormone 20-hydroxyecdysone. Previous work has demonstrated that the ability of the ISMs to die is dependent on new gene expression. Using a differential hybridization cloning strategy, a cDNA library generated from condemned ISMs was screened, and four up-regulated clones were isolated. One of these recombinants was found to encode apolipophorin III (apoLp-III), a component of lipophorin. The expression of apoLp-III was dramatically elevated with the death of the ISMs, some interneurons and identified motor neurons. ApoLp-III was not detectably associated with apolipophorin I and II, required components of lipophorin, or with other molecules in the dying cells, suggesting that apoLp-III has activities independent of lipid transport that may play a role in programmed cell death. Another clone, 18-56, encodes a phylogenetically conserved ATPase domain-containing (CAD) family member related to putative proteasomal subunits and transcriptional regulators. While clone 18-56 was expressed in all tissues examined and during every stage of ISM development, there was a dramatic increase in its expression at both mRNA and protein levels when the ISMs became committed to die. Furthermore, the mouse homolog of 18-56, m56, was cloned and its expression pattern was examined in the mouse. No correlation was detected between enhanced m56 expression and apoptosis in mammalian cells, suggesting that the molecular pathway used by the ISM death may be distinct from that of apoptosis. Rat-1 fibroblast cell lines that over or under express m56 were generated, thus providing tools for further functional study of m56 in mammalian cells.

Molecular biology|Cellular biology

Calcium buffer incorporation reversibly inhibits DNA synthesis, nuclear envelope breakdown, and cell division in transformed keratinocytes

Cishek, Dawn M

01 January 1996

Loss of regulation of cell cycle events mediated by changes in cytosolic Ca$\sp{2+}$ ion activity has been implicated in the progression of normal cells to neoplasia. In this study, the Ca$\sp{2+}$ buffer 5,5$\sp\prime$-difluoro 1,2-bis(2-aminophenoxy) ethane-N,N,N$\sp\prime N\sp\prime$-tetra-acetic acid (5,5$\sp\prime$-dfBAPTA, abbreviated "dfB") has been used to modulate cell division in transformed and primary mouse keratinocytes. Exogenous application, via the tetra(acetoxymethyl) ester ("AM"), of 18-20 $\mu$M dfB/AM to the growth media of transformed cells inhibits cell division and DNA synthesis, without compromising the cells' viability, as shown by $\sp3$H-thymidine incorporation and flow cytometry. Bulk fluorimetry shows that cells treated with dfB/AM are able to buffer Ca$\sp{2+}$ in proportion to the concentration of dfB/AM applied. Primary cultured cells treated with 18-20 $\mu$M dfB/AM die within 3 hours of treatment. Viable dfB/AM treated cultures of transformed cells have a higher proportion of cells in the G$\sb2$ phase of the cell cycle than do controls, as shown by flow cytometry. This result, in combination with that showing reduced $\sp3$H-thymidine incorporation, suggests that 18-20 $\mu$M dfB/AM inhibits a pre- or mid-mitotic step. Light, electron, and confocal microscopies show 18-20 $\mu$M dfB/AM-treated cells to have prominent, thickened nuclear envelopes along with actin cytoskeletons that are distinguishable from controls. Upon return to medium that does not contain dfB/AM, treated transformed cells gradually resume their pre-treatment growth and division patterns.

Cellular biology|Molecular biology

Studies on carbohydrate metabolism in Bifidobacterium : isolation, characterisation and regulation of a sucrose-utilisation gene cluster in Bifidobacterium lactis

Trindade, Marla

January 2002

Bibliography: leaves 167-195. / The primary aim of the project was, therefore, to analyse carbohydrate metabolism for the identification of and/or the development of prebiotic substrates, and to provide a molecular characterisation for their utilisation. Several carbohydrates were tested for their ability to support the growth of bifidobacteria as a sole carbohydrate source. The four bifidobacterial strains, B. breve, B. bifidum, B. longum and B. lactis were able to utilise a wide variety of substrates.

Molecular and Cellular Biology

Genetic effects of prolonged UV-B exposure in a Namaqualand daisy - Dimorphotheca sinuata

Mpoloka, Sununguko Wata

January 2001

Bibliography: leaves 122-139. / This thesis describes investigations into the genetic effects of long term UV-B exposure in Namaqualand daisies (Dimorphotheea sinuata) grown for several generations under ambient and enhanced UV-B levels. Enhanced UV-B radiation was found to have a major effect on the biochemical composition of the chloroplast accompanied by impairment of photosynthetic function, involving a down-regulation of photosynthetic genes and an up-regulation of flavonoid biosynthesis.

Molecular and Cellular Biology