The expression of neurofilament protein and mRNA levels in the lateral geniculate nucleus and area V1 of the developing and adult vervet monkey (Ceorcopithicus aethiops) /

Kogan, Cary.

January 1999

This study comprised three questions, each posed with the intention of exploring the expression of the neurofilament protein (NF) and mRNA levels in the monkey lateral geniculate nucleus (LGN) and visual cortex. (1) Literature indicates NFs are differentially expressed across the two visual pathways that originate from magnocellular and parvocellular layers in LGN. The results herein suggest that this difference continues at the level of gene transcription for the neurofilament heavy gene. (2) NF expression, assessed by SMI-32 (an antibody that recognizes an epitope of the non-phosphorylated NFs), was investigated as a function of developmental changes occurring during the critical period in area V1 of the vervet monkey visual cortex. The findings indicate that the M pathway develops before the P pathway. (3) The effect of eye enucleation on long-term changes in NF expression was investigated. The results do not support the idea that NF are activity-dependent.

Cercopithecus aethiops -- Physiology.

Visual pathways.

Visual cortex -- Physiology.

Cytoplasmic filaments.

Import of chimeric proteins into plant mitochondria

Mahe, Laetitia.

January 2001

Cytoplasmic male sterility (CMS) in plants is associated with mitochondrial dysfunction. We have proposed in this study that the mitochondrial-encoded chimeric peptide thought to be responsible for cytoplasmic male sterility in Polima system could function as a dominant male sterility inducer when expressed in the nucleus and targeted to the mitochondria. Transgenic plants expressing such mitochondrial targeting constructs exhibited reduction of pollen production that was characterized in fertile Westar (nap ) and restored fertile Westar (pol) plants by homeotic transformation of floral organs and in male-sterile Westar (pol) plants by a reduction in pollen production with shortening of the stamens. Genetic and molecular analysis has shown that the phenotypic changes were correlated with the effective genetic transmission of the inserted transgene through female gametes. Most significantly, we have found that differences in floral morphology induced by transgene expression between pol CMS and fertile Westar plants might be related to differences in transcriptional activity of the APETALA3 MADS box gene. We suggest that the alterations in floral morphology that accompany CMS in several plant species might be due to effects of mitochondria on transcriptional activity of floral organ identity genes.

Cytoplasmic male sterility.

Rape (Plant) -- Cytogenetics.

Plant mitochondria.

Genetic mapping of restorer genes for cytoplasmic male sterility in Brassica napus using DNA markers

Jean, Martine

January 1995

DNA markers tightly-linked to nuclear fertility restorer genes for cytoplasmic male sterility (CMS) are valuable tools for breeders and researchers working with these genes. Two different targeting approaches were used to identify markers linked to the Rfp1 restorer gene for the pol CMS of canola (Brassica napus L.): nearly isogenic line (NIL) comparison and bulked segregant analysis. These methods were equally efficient in identifying markers linked to Rfp1; combining them allowed a targeting efficiency of 100% to be achieved. The efficiency of bulked segregant analysis was found to be limited by the inadvertent occurrence of shared homozygosity at specific chromosomal regions in the bulks, in contrast with the efficiency of NIL comparison which was limited by the occurrence of residual DNA from the donor cultivar at scattered sites around the genome of the NILs. Eleven DNA markers linked to the Rfp1 gene were identified, one of which perfectly co-segregates with Rfp1. The linkage group on which Rfp1 is localized contains 17 DNA markers. Two restorer genes of the pol CMS, Rfp1 and Rfp2, and a Rfn restorer gene of the nap CMS were found to be at least tightly linked to one another and may all reside at the same locus. A fourth restorer gene, the Rfo restorer for the ogu CMS, was, however, found to be unlinked to the other restorer genes. Different restorer genes for the nap CMS were found in the lines 'Westar-Rf and 'Karat'. A linkage map of the B. napus genome containing 146 markers organized into 23 linkage groups covering a total length of 850.2 cM was constructed from a BC$ sb1$ population. This map contains 63 loci previously localized on the B. napus genome through analysis of an F$ sb2$ population. Comparative analysis indicates that the total length of the BC$ sb1$-derived map is smaller than that of the F$ sb2$-derived map, which suggests that a reduction in recombination frequency is occurring in male gametes. The preferential use of two or three probe-

Cytoplasmic male sterility

Rape (Plant) -- Cytogenetics

Rape (Plant) -- Genome mapping

Molecular characterization of cytoplasmic male sterility in Brassica napus

L'Homme, Yvan

January 1994

In order to identify organizational differences between sterile Polima (pol) and fertile Campestris (cam) mitochondrial genomes that could be linked to cytoplasmic male sterility (CMS), the physical map of the pol mitochondrial genome was constructed and compared to the physical map of the cam mitochondrial genome. The only structural differences between the two genomes are confined to a region encompassed by a 4.5 kb segment, present in pol mtDNA but absent in cam mtDNA. This 4.5 kb CMS-associated pol segment contains a chimeric gene called orf224 that is cotranscribed with atpG and comprises the single mtDNA region expressed differently in fertile, sterile and fertility restored plants which makes it a good candidate for specifying the sterility trait. Sequence analysis of the pol 4.5 kb segment has shown that orf224 was the only significant open reading frame (ORF) within the segment that gives rise to abundant transcripts, strengthening the view that the orf224/atp6 gene region is conferring pol male sterility. The pol 4.5 kb segment is also present and similarly organized in the common Brassica napus nap mtDNA but the sequences flanking the two segments are unrelated. Thus, the 4.5 kb segment appears to have transposed during the evolution of the pol and nap mitochondrial genomes and appears to have been lost in the cam mitochondrial genome. Sequence analysis of the nap segment revealed the presence of an ORF related to but divergent from orf224. This open reading frame (orf222) potentially encodes a protein of 222 amino-acids with 79% homology to the predicted product of orf224. orf222 is co-transcribed with the third exon of the trans-spliced gene, nad5, and another ORF of unknown function. Expression of the orf222 gene region is tightly associated with nap CMS since the levels of orf222 transcripts are significantly reduced upon restoration while the expression of 22 other mitochondrial genes do not consistently correlate with nap CMS. Antibodies were rai

Cytoplasmic male sterility

Rape (Plant) -- Cytogenetics.

Plant mitochondria

Mitochondrial DNA

CHARACTERIZATION OF <em>WOLBACHIA</em> AND ITS INTERACTION IN HOST MOSQUITOES

Suh, Eunho

01 January 2011

Wolbachia are maternally inherited, obligate, intracellular bacteria inducing a form of sterility known as cytoplasmic incompatibility. Wolbachia based strategies have been proposed for the control of disease vectors. One example is to use a population replacement strategy to drive into natural population a novel Wolbachia that modifies the age structure of a vector population, reducing disease transmission. In this research, the effects of a life-shortening stain of Wolbachia (popcorn Wolbachia) are transferred into the mosquitoes Aedes albopictus (Chapter Two and Three) and A. aegypti (Chapter Four and Five). In Chapter Two, the Wolbachia symbiosis significantly reduced fecundity and egg hatches in A. albopictus, with Wolbachia being highly pathogenic in this mosquito species. In Chapter Three, the relationship between popcorn Wolbachia and its host (in a triple-infected mosquito strain) varied with the mosquito diet. Feeding on mouse blood was associated with the loss of infection, whereas the infection was maintained in human blood-fed mosquito lines. Egg viability of triple infected mosquito was reduced only with mouse blood. In Chapter Four, the reduced competitiveness (e.g., low survival and increased developmental time) of infected A. aegypti immatures was associated with popcorn Wolbachia, relative to uninfected individuals in low food condition. In Chapter Five, the decreased survival of immature A. aegypti was associated with popcorn Wolbachia in the presence of potential predators (i.e., older A. aegypti or A. albopictus larvae). Using a novel behavioral assay, a delayed larval reaction to light avoidance was observed to be associated with the infection, suggesting Wolbachia effects on immature host behaviors. In Chapter Six, popcorn Wolbachia and wAlbB infected A. aegypti showed similar reproduction potential. No reduced level of CI or mating competitiveness was observed in wAlbB infected males. The results suggest the wAlbB infection in A. aegypti can be an additional agent for Wolbachia-based control strategies. In Chapter Seven, a filtering system using commercially available sieves was able to separate immature mosquitoes from water, preventing escape of mosquitoes. In Chapter Eight, an inexpensive artificial blood feeding was designed for feeding multiple mosquito cages. The results support the use of these tools to facilitate mass rearing of mosquitoes.

cytoplasmic incompatibility

Dengue

arbovirus

fitness cost

insect behavior

Agriculture

Entomology

Expression of SNAP23 and Rab3A in mouse oocytes and fertilized eggs and their role in cortical granules exocytosis / Expression of soluble NSF attachment proteins 23 and ras-associated binding protein 3A in mouse oocytes and fertilized eggs and their role in cortical granules exocytosis

Trowbridge, Amanda J.

January 2004

The proteins and molecular machinery mediating the release of cortical granule (CG) contents from fertilized embryos is not completely understood. The process of vesicle fusion involves linking chaperones prior to vesicle to membrane contact. Rab3A, a member of a low-molecular weight GTP-binding protein superfamily has been detected in mouse embryos from the unfertilized meiotic II stage to the 2-cell. It is believed to positively regulate the final step of CG exocytosis by binding to Rabphillin, calcium ions (Ca2+), and phospholipids. SNAP23 a member of soluble NSF [N-ethylmaleimidesensitive factor] attachment protein receptors (SNAREs) binds together with parts of the Rab3A-rabphilin3A complex and is believed to be involved in the Ca2+-dependent exocytosis of non-neuronal systems. In this study we observed the mRNA expression for SNAP23 and Rab3A in pre-Meiotic I, post-Meiotic I unfertilized eggs (pre-MI UFE and post-MI UFE), and fertilized eggs (FE) utilizing RT-PCR. The products were analyzed in 2% agarose gel stained with ethidium bromide. Density analysis using a globin external standard showed that the levels of mRNA transcripts declined from the UFE to the FE in both genes, SNAP23 and Rab3A. Immunofluorescence was used for the detection and localization of Rab3A protein within the pre-MI and post-MI UFE and FE mouse egg. Eggs were stained with anti-Rab3A primary antibody and lens culinaris agglutinin (LCA) conjugated to FITC. Rab3A showed punctate staining in pre- and post-MI UFEs on small vesicles assumed to be CGs and in FEs on vesicles of a larger size. Uniform cytoplasmic expression was also seen, throughout the cells cortical and subcortical regions in each stage (pre- and post-MI UFEs and FEs), but with decreasing intensity as the eggs matured. This cytoplasmic stain may represent inactive Rab3A in the cytosol. The LCA stain showed punctate expression of cortical granules with localization within the cortical region and the plasma membrane. The addition of information on SNAP23 and Rab3A will aid in the process of studying CG exocytosis as well as in understanding the temporal and spatial development pathways involved in stimulating the cortical reaction. / Department of Biology

Membrane proteins.

Ras proteins.

Cytoplasmic granules.

Mice -- Embryology.

Evolution of Wolbachia-Drosophila interactions and implications for Wolbachia-based biocontrol

Carrington, Lauren Bree

January 2010

Wolbachia is a maternally inherited α-proteobacteria that lives an obligate intracellular lifestyle in its eukaryotic hosts. Wolbachia pipientis was first identified in the 1920’s in the mosquito Culex pipiens; Wolbachia has since been detected in a broad range of hosts. Wolbachia induces a number of diverse reproductive manipulations in many of its hosts, implicating Wolbachia in control strategies for target species. However, changes in host bacterial interactions can evolve toward mutualism, and this requires investigation in target systems. / This first part of this work examines changes in the Drosophila simulans-Wolbachia Riverside system in California. This system, studied for a period of more than two decades, provides a rare example in nature of a symbiotic relationship shifting from parasitism to mutualism. In my study, no changes in overall estimates of infection frequency, maternal transmission or cytoplasmic incompatibility were found, however there appears to be heterogeneity in maternal transmission rates and the ability of males to induce cytoplasmic incompatibility (CI). The source of CI variation in one isofemale line was subsequently investigated through reciprocal backcrossing with an old Wolbachia-infected strain, Riv88, and the variation was attributed to the Wolbachia genome. Further investigations are required to determine the extent of CI variation in the wild. These findings significant implications for the many applied projects that intend to exploit Wolbachia for its ability to manipulate host reproductive systems. / The second part of this work investigates the extent to which evolution of a host-bacterial symbiosis can influence the effectiveness of control strategies using Wolbachia. A particular strain of Wolbachia, named popcorn (wMelPop), has been isolated for its ability to reduce host longevity. This bacterium has the capacity to alter the age structure of the target host populations. As many vector-borne diseases (eg: Dengue Fever, Malaria) require an incubation period within the vector prior to transmission to the final host, a reduction in the lifespan of vector populations has the potential to lower transmission levels. The long term stability of this bacterial strain has been investigated in its native host (Drosophila melanogaster), and a novel host (D. simulans). The longevity-shortening phenotype and several life-history traits that might influence the effectiveness of control strategies have been examined. Host genetic background and the indirect selection on the longevity phenotype (via early or late fecundity selection) were found to influence multiple life-history traits in these species. The source of this variation in D. melanogaster is attributed primarily to the host, but can also be influenced by Wolbachia. Strong host background effects were noted in D. simulans, which highlights the importance of testing multiple backgrounds for suitability of use in applied projects. / This work has allowed for greater understanding of the potential for evolution within host-symbiont systems, and can be used to provide a framework for undertaking projects that will use Wolbachia as biological control agents. Future projects should consider the potential for evolution in detail under laboratory conditions before control strategies are implemented in the wild.

Evolution of Wolbachia-Drosophila interactions and implications for Wolbachia-based biocontrol

Carrington, Lauren Bree

January 2010

Wolbachia is a maternally inherited α-proteobacteria that lives an obligate intracellular lifestyle in its eukaryotic hosts. Wolbachia pipientis was first identified in the 1920’s in the mosquito Culex pipiens; Wolbachia has since been detected in a broad range of hosts. Wolbachia induces a number of diverse reproductive manipulations in many of its hosts, implicating Wolbachia in control strategies for target species. However, changes in host bacterial interactions can evolve toward mutualism, and this requires investigation in target systems. / This first part of this work examines changes in the Drosophila simulans-Wolbachia Riverside system in California. This system, studied for a period of more than two decades, provides a rare example in nature of a symbiotic relationship shifting from parasitism to mutualism. In my study, no changes in overall estimates of infection frequency, maternal transmission or cytoplasmic incompatibility were found, however there appears to be heterogeneity in maternal transmission rates and the ability of males to induce cytoplasmic incompatibility (CI). The source of CI variation in one isofemale line was subsequently investigated through reciprocal backcrossing with an old Wolbachia-infected strain, Riv88, and the variation was attributed to the Wolbachia genome. Further investigations are required to determine the extent of CI variation in the wild. These findings significant implications for the many applied projects that intend to exploit Wolbachia for its ability to manipulate host reproductive systems. / The second part of this work investigates the extent to which evolution of a host-bacterial symbiosis can influence the effectiveness of control strategies using Wolbachia. A particular strain of Wolbachia, named popcorn (wMelPop), has been isolated for its ability to reduce host longevity. This bacterium has the capacity to alter the age structure of the target host populations. As many vector-borne diseases (eg: Dengue Fever, Malaria) require an incubation period within the vector prior to transmission to the final host, a reduction in the lifespan of vector populations has the potential to lower transmission levels. The long term stability of this bacterial strain has been investigated in its native host (Drosophila melanogaster), and a novel host (D. simulans). The longevity-shortening phenotype and several life-history traits that might influence the effectiveness of control strategies have been examined. Host genetic background and the indirect selection on the longevity phenotype (via early or late fecundity selection) were found to influence multiple life-history traits in these species. The source of this variation in D. melanogaster is attributed primarily to the host, but can also be influenced by Wolbachia. Strong host background effects were noted in D. simulans, which highlights the importance of testing multiple backgrounds for suitability of use in applied projects. / This work has allowed for greater understanding of the potential for evolution within host-symbiont systems, and can be used to provide a framework for undertaking projects that will use Wolbachia as biological control agents. Future projects should consider the potential for evolution in detail under laboratory conditions before control strategies are implemented in the wild.

Factors that affect cytoplasmic lipids droplets and mitochondrial activity in bovine oocytes

Mr Cesar Castaneda Manrique

Unknown Date

No description available.

PPAR delta : its role in cholesterol metabolism /

Skogsberg, Josefin,

January 2003

Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 4 uppsatser.