A proteome-level analysis of the canola/Sclerotinia sclerotiorum interaction and sclerotial development

Liang, Yue

11 1900

The fungal pathogen Sclerotinia sclerotiorum (Lib.) de Bary is capable of infecting over 400 plant species including canola (Brassica napus L.). The fungus secretes oxalic acid (OA), which plays an important role in infection and disease progression. An analysis of proteome-level changes associated with infection of susceptible canola leaves by S. sclerotiorum revealed significant changes in the abundance of 32 proteins, including proteins involved in photosynthesis and metabolism, hormone signaling, and antioxidant defense. A similar subset of 37 proteins was affected when leaves were treated with OA alone; this compound also caused a reduction in the activities of a number of antioxidant enzymes, suggesting an OA-mediated suppression of the oxidative burst. To further understand the mechanisms of pathogenesis, the role of Sssp, a predicted secreted protein from S. sclerotiorum, was targeted for analysis. Mutant strains of S. sclerotiorum were generated by disruption of the Sssp gene and characterized for virulence on canola. Based on the extent of symptom development, the virulence of the Sssp-disrupted mutants was significantly reduced relative to the wild-type, indicating that Sssp may play a role in the infection process. Finally, the development of sclerotia, long-term survival structures that serve as a primary source of inoculum for the fungus, was examined. A total of 88 proteins were found to exhibit temporal changes in abundance during sclerotium formation and maturation, including proteins involved in the regulation of melanogenesis. A total of 56 proteins were also identified in the sclerotial exudates, providing a basis for future studies. Collectively, the studies described in this dissertation represent the most comprehensive proteome-level analysis of the canola/S. sclerotiorum interaction and sclerotial development, and could contribute to the development of novel strategies for the management of S. sclerotiorum. / Plant Science

canola

proteomics

sclerotia

Sclerotinia sclerotiorum

stem rot

Optimal Population of Embryonic Stem Cells in "Hanging Drop" Culture for in-vitro Differentiation to Cardiac Myocytes

MIWA, Keiko, LEE, Jong-Kook, HIDAKA, Kyoko, SHI, Rong-qian, MORISAKI, Takayuki, KODAMA, Itsuo

12 1900

国立情報学研究所で電子化したコンテンツを使用している。

embryonic stem cell

fluorescence-activated cell sorting

樹幹形に関する研究

長嶋, 郁, NAGASHIMA, Iku

12 1900

農林水産研究情報センターで作成したPDFファイルを使用している。

Stem form formula

Orthonormal expansion

Growth process

Now I Understand! Success Factors among High-Achieving Undergraduate Hispanic Students Majoring in Engineering at a Research University

Brookins, Bari

2012 August 1900

This dissertation examined the perceptions of high-achieving undergraduate Hispanic students majoring in engineering with regard to their academic success. As the largest and fastest growing minority group in the US, Hispanics are underrepresented among the racial and ethnic compositions of students enrolled in undergraduate engineering programs. Factoring in the overall decline in the number of graduates in engineering, as well, enhances the challenges this will bring to need for a racially and ethnically representative US workforce. While engineering is an academically demanding discipline, some students not only succeed, but excel. To understand the factors that contributed to their academic success, seven high-achieving undergraduate engineering students were interviewed to examine their undergraduate experiences at Texas A&M University. This qualitative study utilized semi-structured participant interviews as the means of data collection to gather information. Through the process of content analysis, four key themes emerged: (1) Versatility: That's a different way of seeing things that I never thought of before, (2) Individuality: I've gotten more a sense of who I am, (3) Essence: That's just how we are, and (4) Successful Study Strategies: I realized if I wanted to continue not having to relearn and relearn, I should just learn. Findings from this study suggest that Texas A&M should emphasize engagement opportunities through the use of freshman Learning and/or Living-Learning Communities to improve the acclimation of new students into the University as well as assist them in forming the type of peer relationships that can increase the likelihood of academic success. In addition, the University should make a variety of academic assistance measures available to these students early in their academic careers to activate successful study strategies and accomplishments.

Higher education

Hispanic

STEM

Engineering

Academic success

Directed differentiation of endodermal cells from mouse embryonic stem cells

Kim, Peter Tae Wan

11 1900

Pluripotent embryonic stem cells hold a great promise as an unlimited source of tissue for treatment of chronic diseases such as Type 1 diabetes and chronic liver disease. Various attempts have been made to produce cells that can serve as precursors for pancreas and liver. By using all-trans-retinoic acid, basic fibroblast growth factor, dibutyryl cAMP, and cyclopamine, an attempt has been made to produce definitive endoderm and subsequently cells that can serve as pancreatic and hepatocyte precursors from mouse embryonic stem cells. By using retinoic acid and basic-FGF, in the absence of embryoid body formation, mouse embryonic stem cells were differentiated at different culture periods. Four protocols of varying lengths of culture and reagents and their cells were analyzed by quantitative PCR, immunohistochemistry and static insulin release assay for markers of trilaminar embryo, pancreas and hepatocytes. Inclusion of DBcAMP and extension of culture time resulted in cells that display features of definitive endoderm by expression of Sox 17 and FOXA2 and minimal expression of primitive endoderm and other germ cell layers such as ectoderm and mesoderm. These cells produced insulin and C-peptide and secreted insulin in a glucose responsive manner. However, they seem to lack mature insulin secretion mechanism. There was a production of hepatocyte markers (AFP-2 and transthyretin) but there was insufficient data to assess for convincing production of hepatocytes. In summary, one of the protocols produced cells that displayed characteristics of definitive endoderm and they may serve as pancreatic endocrine precursors.

Embrynoic stem cells

Diabetes

Definitive endoderm

Development of embryonic stem cells expressing endogenous levels of a fluorescent protein fused to the telomere binding protein TRF1

Miller, Shelley Bonnie

11 1900

Telomeres are the repetitive DNA sequence and associated proteins found at the ends of linear chromosomes. They have a role in biological processes including meiosis and aging as well as implications in a number of genomic instability disorders and cancers. Telomeres maintain genomic stability by protecting chromosome ends from terminal fusions and misidentification as DNA damage sites. Their wide range of functions has resulted in an increased interest in developing tools to study the dynamics of telomeres in live cells. To do this, current studies use the ubiquitously expressed protein Telomere Repeat Factor 1 (TRF1) tagged with a fluorescent protein. TRF1 is a negative regulator of telomere length that binds exclusively to telomere repeats. Over-expression of the fluorescent protein fused to TRF1 has been a useful tool to track telomere movement. The foci formed by the tagged TRF1 protein accurately represent the number of telomeres expected in the cells and the localization is maintained throughout the cell cycle. A caveat with this system is that over-expression of TRF1 leads to accelerated telomere shortening, as well as replication defects that can stall telomere replication. These caveats make it difficult to draw conclusions about telomere dynamics based solely on observations of cells over-expressing fluorescently tagged TRF1. To eliminate problems associated with protein over-expression, I have tried to develop knock-in embryonic stem (ES) cells expressing fluorescently tagged TRF1 from the endogenous Trf1 promoter. To do this, I have used a recombineering technique using Bacterial Artificial Chromosomes (BACs). BAC recombineering allows for the direct knock-in of a fluorescent tag into the mouse Trf1gene locus. Genetic constructs with the correct sequence inserts have been obtained and have been used for transfection of ES cells. While no correctly targeted ES cells have been identified so far, the expectation is that ES cell lines with correctly targeted fluorescently tagged TRF1 will be obtained in the near future. Such lines will be used to study telomere dynamics in ES cells, differentiated cells generated from ES cells, as well as to generate mice.

Telomeres

TRF1

Embryonic stem cells

Recombineering

The identification and characterization of human bone marrow stromal stem cells /

Gronthos, Stan.

Unknown Date

Thesis (MAppSc (Medical Laboratory Science)) --University of South Australia, 1993

Bone marrow cells.

Hematopoietic stem cells

Studies in stem cell biology and developmental pathway regulation in the pancreas and breast

O'Toole, Sandra Alison, Garvan Institute of Medical Research, Faculty of Medicine, UNSW

January 2008

Breast and pancreatic cancers are among the major causes of cancer mortality in our society. There has been a significant decline in mortality from breast cancer over the last two decades, while pancreatic cancer has an exceptionally poor prognosis. Although these malignancies have very different clinical outcomes they share the common feature that metastatic disease is almost uniformly fatal. The existence of cancer stem cells has been postulated as a major factor in tumour recurrence after traditional chemo- or radio-therapy. Addressing this important clinical question requires a deeper understanding of the biology of normal and cancer stem cells and the signalling pathways involved in their regulation. The identity of the pancreatic stem cell remains elusive. However, using a murine model of haematopoietic stem cell (HSC) transplantation I have demonstrated for the first time transdifferentiation of these bone marrow derived cells into mature pancreatic acinar cells, where they appear to contribute to cell turnover ultimately forming acini and lobules. These data show that HSC have surprising developmental plasticity and provide insight into a potential stem cell niche in the pancreas. The Hedgehog, Wnt and Notch signalling pathways play a critical role in early development and in the maintenance and self-renewal of stem cells. There is also increasing evidence that dysregulation of these pathways contributes to the development of many malignancies. There is relatively little information regarding their role in breast cancer development and progression. I used immunohistochemistry for key proteins in these pathways, sonic hedgehog, beta-catenin and Notch 1 in three substantial series of human breast lesions and determined that abnormal expression of these proteins is an early event in the development in breast cancer, and is associated with particular breast cancer subtypes, Shh and beta-catenin expression is associated predominantly with the basal-like phenotype and Notch 1 with the HER2 amplified phenotype. Overexpression of Shh in particular confers a worse clinical outcome in invasive ductal carcinoma. Furthermore, increased levels of Shh in a 3D culture model of non-transformed mammary epithelial cells resulted in disorganisation of acini and the development of an abnormal discohesive phenotype. Finally the role of Shh was investigated in a mammary epithelial transplantation model, where overexpression of Shh resulted in the development of hyperplasia of the mammary ductal epithelium. Together these data confirm that the Hedgehog, Wnt and Notch developmental pathways are dysregulated in breast cancer and represent viable targets for further investigation of potential novel therapies in breast cancer.

wnt

Hedgehog

Notch

Breast

stem cell

pancreas

Molecular characterization of the CP2-related transcription factor, CRTR-1.

To, Sarah

January 2009

CRTR-1 is a member of the CP2 family of transcription factors. Unlike other CP2 family members, CRTR-1 expression is regulated developmentally. Major sites of expression in the embryo include the pluripotent inner cell mass (ICM) of the pre-implantation blastocyst and the developing kidney. It is also expressed in embryonic stem (ES) cells, which are derived from the ICM of blastocysts, and is downregulated as these cells differentiate into early primitive ectoderm-like (EPL) cells. This expression pattern suggests that CRTR-1 plays a role in early pluripotent populations. This thesis aims to characterize the transcription factor CRTR-1 at the molecular level and analyses the role of sumoylation on CRTR-1 function to develop a better understanding of the molecular role of CRTR-1 in ES cells. Luciferase reporter assays show that CRTR-1 is able to regulate the activities of other CP2 family members: CP2, NF2d9 and altNF2d9. It enhances CP2- and NF2d9-mediated activation but suppresses altNF2d9-mediated activation. To map the functional domains in the CRTR-1 protein, transactivation studies using CRTR-1 deletion mutants fused to the GAL4 DNA binding domain and a GAL4-responsive reporter system were performed. These studies map repressor activity to amino acids 48-200, but fail to identify a transactivation domain within the CRTR-1 protein. In order to understand the mechanisms by which CRTR-1 regulates the transcriptional activities of CP2 family members, a number of approaches are taken, including co-immunoprecipitation to show that CRTR-1 interacts with other CP2-like proteins, EMSA which demonstrate that CRTR-1 forms DNA binding complexes with CP2 family members, and subcellular protein localisation studies which reveal the ability of CRTR-1 and other family members to shuttle between the nucleus and cytoplasm via a CRM1-dependent pathway. In addition, the subcellular localisation of CRTR-1 appears to be cell type specific, with an exclusively nuclear localisation pattern in ES cells, a predominantly cytoplasmic localisation pattern in HEK293T cells, and a cytoplasmic and nuclear speckle localisation pattern in COS-1 cells. Co-expression of CRTR-1 with CP2 or NF2d9 results in the re-localisation of CRTR-1 to the cytoplasm in ES cells. The sumoylation enzymes Ubc9 and PIAS1 have previously been identified as CP2-interacting proteins (Kang et al., 2005a). Given the identification of two potential sumoylation sites within CRTR-1, FK³⁰ QE and LK⁴⁶ ⁴AE, and the ability for sumoylation to regulate transcription factor function, the possibility that CRTR-1 is regulated by sumoylation is investigated in this thesis. Immunoprecipitation experiments show that CRTR-1 is modified by SUMO-1 and that lysine 30 is the critical residue for this modification. Mutation of lysine 30 to alanine, which abolishes CRTR-1 sumoylation, results in enhancement of transactivation by CRTR-1, suggesting that sumoylation of CRTR-1 blocks maximal activation. Unexpectedly, however, overexpression of Ubc9, PIAS1, or SUMO-1 results in enhancement of CRTR-1 transcriptional activity, indicating that a more complex mechanism of regulation of CRTR-1 activity is likely. This thesis presents several novel properties of CRTR-1 and other CP2 family members, including the ability of CRTR-1, previously characterized as a repressor, to activate transcription. It is also the first demonstration that CP2 proteins are regulated by sumoylation and that they shuttle between the nucleus and cytoplasm via a CRM1-dependent mechanism. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1374290 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

Molecular characterization of the CP2-related transcription factor, CRTR-1.

To, Sarah

January 2009

CRTR-1 is a member of the CP2 family of transcription factors. Unlike other CP2 family members, CRTR-1 expression is regulated developmentally. Major sites of expression in the embryo include the pluripotent inner cell mass (ICM) of the pre-implantation blastocyst and the developing kidney. It is also expressed in embryonic stem (ES) cells, which are derived from the ICM of blastocysts, and is downregulated as these cells differentiate into early primitive ectoderm-like (EPL) cells. This expression pattern suggests that CRTR-1 plays a role in early pluripotent populations. This thesis aims to characterize the transcription factor CRTR-1 at the molecular level and analyses the role of sumoylation on CRTR-1 function to develop a better understanding of the molecular role of CRTR-1 in ES cells. Luciferase reporter assays show that CRTR-1 is able to regulate the activities of other CP2 family members: CP2, NF2d9 and altNF2d9. It enhances CP2- and NF2d9-mediated activation but suppresses altNF2d9-mediated activation. To map the functional domains in the CRTR-1 protein, transactivation studies using CRTR-1 deletion mutants fused to the GAL4 DNA binding domain and a GAL4-responsive reporter system were performed. These studies map repressor activity to amino acids 48-200, but fail to identify a transactivation domain within the CRTR-1 protein. In order to understand the mechanisms by which CRTR-1 regulates the transcriptional activities of CP2 family members, a number of approaches are taken, including co-immunoprecipitation to show that CRTR-1 interacts with other CP2-like proteins, EMSA which demonstrate that CRTR-1 forms DNA binding complexes with CP2 family members, and subcellular protein localisation studies which reveal the ability of CRTR-1 and other family members to shuttle between the nucleus and cytoplasm via a CRM1-dependent pathway. In addition, the subcellular localisation of CRTR-1 appears to be cell type specific, with an exclusively nuclear localisation pattern in ES cells, a predominantly cytoplasmic localisation pattern in HEK293T cells, and a cytoplasmic and nuclear speckle localisation pattern in COS-1 cells. Co-expression of CRTR-1 with CP2 or NF2d9 results in the re-localisation of CRTR-1 to the cytoplasm in ES cells. The sumoylation enzymes Ubc9 and PIAS1 have previously been identified as CP2-interacting proteins (Kang et al., 2005a). Given the identification of two potential sumoylation sites within CRTR-1, FK³⁰ QE and LK⁴⁶ ⁴AE, and the ability for sumoylation to regulate transcription factor function, the possibility that CRTR-1 is regulated by sumoylation is investigated in this thesis. Immunoprecipitation experiments show that CRTR-1 is modified by SUMO-1 and that lysine 30 is the critical residue for this modification. Mutation of lysine 30 to alanine, which abolishes CRTR-1 sumoylation, results in enhancement of transactivation by CRTR-1, suggesting that sumoylation of CRTR-1 blocks maximal activation. Unexpectedly, however, overexpression of Ubc9, PIAS1, or SUMO-1 results in enhancement of CRTR-1 transcriptional activity, indicating that a more complex mechanism of regulation of CRTR-1 activity is likely. This thesis presents several novel properties of CRTR-1 and other CP2 family members, including the ability of CRTR-1, previously characterized as a repressor, to activate transcription. It is also the first demonstration that CP2 proteins are regulated by sumoylation and that they shuttle between the nucleus and cytoplasm via a CRM1-dependent mechanism. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1374290 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009