Identifing Insulators in Arabidopsis thaliana

Gandorah, Batool

30 August 2012

In transgenic research the precise control of transgene expression is crucial in order to obtain transformed organisms with expected desirable traits. A broad range of transgenic plants use the constitutive cauliflower mosaic virus (CaMV) 35S promoter to drive expression of selectable marker genes. Due to its strong enhancer function, this promoter can disturb the specificity of nearby eukaryotic promoters. When inserted immediately downstream of the 35S promoter in transformation vectors, special DNA sequences called insulators can prevent the influence of the CaMV35S promoter/enhancer on adjacent tissue-specific promoters for the transgene. Insulators occur naturally in organisms such as yeasts and animals but few insulators have been found in plants. Therefore, the goal of this study is to identify DNA sequences with insulator activity in Arabidopsis thaliana. A random oligonucleotide library was designed as an initial step to obtain potential insulators capable of blocking enhancer-promoter interactions in transgenic plants. Fragments from this library with insulator activity were identified and re-cloned into pB31, in order to confirm their activity. To date, one insulator sequence (CLO I-3) has been identified as likely possessing enhancer-blocking activity. Also, two other oligonucleotide sequences (CLO II-10 and CLO III-78) may possess insulator activity but more sampling is needed to confirm their activity. Further studies are needed to validate the function of plant insulator(s) and characterize their associated proteins.

Arabidopsis thaliana

Insulators

CaMV 35S enhancer/promoter

Molecular characterization of a <i>fusarium graminearum</i> lipase gene and its promoter

Feng, Jie

07 February 2007

A triglyceride lipase gene FgLip1 was identified in the genome of <i>Fusarium graminearum</i> strain PH-1. Yeast cells overexpressing FgLip1 showed lipolytic activity against a broad range of triglyceride substrates. Northern blot analyses revealed that expression of FgLip1 was activated in planta during the fungal infection process and under starvation conditions <i>in vitro</i>. FgLip1 expression was strongly induced in minimal medium supplemented with wheat germ oil, but only weakly induced by olive oil and triolein. Saturated fatty acids were the strongest inducers for FgLip1 expression and this induction was proportionally suppressed by the presence of unsaturated fatty acids. To determine the potential function of FgLip1, gene replacement was conducted on strain PH-1. When compared to wild-type PH-1, ∆FgLip1 mutants showed greatly reduced lipolytic activities at the early stage of incubation on minimal medium supplemented with either saturated or unsaturated lipid as the substrate, indicating that FgLip1 encodes a secreted lipase for exogenous lipid hydrolysis. The ∆FgLip1 mutants exhibited growth deficiency on both liquid and solid minimal media supplemented with the saturated triglyceride tristearin as the sole carbon source, suggesting that FgLip1 is required for utilization of this substance. No variation in disease symptoms between the ∆FgLip1 mutants and the wild-type strain was observed on susceptible cereal hosts including wheat, barley and corn. To delineate the promoter region responsible for the specific regulation of FgLip1 expression, a series of deletions of FgLip1 5 upstream region were fused with the open reading frame of a green florescent protein (GFP) gene and the constructs were introduced into <i>F. graminearum</i>. GFP expression in the resulting transformants indicated that a 563-bp FgLip1 promoter sequence was sufficient to regulate expression of the FgLip1 gene and regulatory elements responsible for gene induction were located within the 563-372 bp region. To further investigate the regulatory elements, putative cis-acting elements within the 563-372 bp region were mutated using a linker-scanning mutagenesis approach. A CCAAT box, a CreA binding site, and a fatty acid responsive element (FARE) were identified and confirmed to be responsible for FgLip1 basal expression, glucose suppression and fatty acid induction, respectively.

lipase

FHB

promoter

pathogenicity

Fusarium graminearum

Impact of tylosin phosphate, flaxseed, and flaxseed fractions on small intestinal microbial profiles in pigs

Smith, Laura Faye

24 April 2006

Understanding how antimicrobial growth promoters (AGPs) affect small intestinal microbiota may help to discover effective alternatives. The impact of dietary supplementation with tylosin phosphate on small intestinal microbial profiles was investigated in growing pigs, and compared with the microbial profile of pigs fed flaxseed or its fractions. Eighteen ileal-cannulated barrows (33.1 +/- 2.4 kg) received either the control diet (C, wheat, peas and soybean meal), or C plus 22 mg/kg tylosin phosphate (T), 20% whole flaxseed (WF), 18% hot-water extracted flaxseed (HWE), 4% flaxseed hulls (H), or 8% flaxseed oil (O) during three 21-d periods in a change over design. Ileal digesta (100 mL) was collected on d 16 and 17 of each period. Two chaperonin-60 universal target (cpn60 UT) libraries were constructed from pooled ileal digesta DNA extracted from the C and T diets. A total of 1634 nucleotide sequences were determined, and 117 different cpn60 UT sequences identified. Microbial diversity was greatest in the C library compared to T. Taxonomic composition between libraries differed, and included Lactobacillales (94% of C and 86% of T sequences), Enterobacteriaceae (3% of C and 13% of T), Clostridiales, Bacillales and Bifidobacterium taxa. T had a reduced ratio of Lactobacillales: Enterobacteriaceae sequences (6:1) compared to C (35:1). Lactobacilli: enterobacteria plate count ratios were highest in WF compared to C or T diets. Lactobacillus johnsonii genomes detected by qPCR were increased by 17.2 and 12%, in T and WF diets, respectively, compared to C. Numbers of L. amylovorus genomes were 25% lower in the H diet compared to C. Numbers of Escherichia coli and Streptococcus alactolyticus genomes were unaffected by dietary treatment, despite differences in library clone frequency for these species. Increased L. johnsonii colonization with tylosin suggests possible probiotic properties of this bacterium. Only inclusion of whole flaxseed resulted in a similar increase in L. johnsonii. Overall, ileal microbial profiles of growing pigs were similar and remained mostly unaffected by dietary tylosin or flaxseed inclusion.

antimicrobial growth promoter

bacteria

DNA

chaperonin-60

<i>In vivo</i> study of the role of the cytoskeleton and fungal golgi in hyphal tip growth of <i>Aspergillus nidulans</i>

Hubbard, Michelle Anne

07 May 2007

Filamentous fungi, such as <i>Aspergillus nidulans</i>, are composed of tubular, highly polarized, multinucleate cells called hyphae. Polar growth involves secretion specifically at the hyphal tip. Secretion involves intracellular transport and co-ordination of the cytoskeleton and the endomembrane system. <p>Intracellular transport is likely mediated by cytoskeletal elements, which, in fungal cells consist primarily of actin and microtubules (MTs). An <i>A. nidulans</i> strain transformed with green fluorescent protein (GFP) tagged α-tubulin was utilized in the investigation of relationship between cytoplasmic MT arrays and hyphal growth rate. <i>A. nidulans</i> MTs were observed to be long and flexuous and to run roughly parallel to the long axis of hyphae. No correlation between relative MT abundance and hyphal growth rate was observed, although non-growing hyphae had a lower relative MT abundance than growing hyphae. Actin depolymerization decreased hyphal growth rate while MT depolymerization did not. MT stabilization increased hyphal growth rate. Ethanol, the solvent in which the MT and actin inhibitors were dissolved, increased both average overall growth rate and growth rate variability for individual hyphae. Taxol appeared to interact with irradiation to decreased growth rate during imaging. <p>Golgi are involved in secretion and potentially in polar growth. An <i>A. nidulans</i> α-coatomer protein (COP)I homolog (α-COPI), tagged with GFP, was used to investigate the role(s) of fungal Golgi in polar growth. α-COPI-GFP co-localized with the known Golgi marker, α-2,6-sialyltransferase (ST), tagged with red fluorescent protein (RFP), in untreated hyphae. Based on this observation, I propose that α-COPI-GFP can be used as a proxy for fungal Golgi localization. Fungal Golgi were more abundant at hyphal tips than subapically. Fungal Golgi forward (tipward) velocity correlated with hyphal growth rate. Fungal Golgi forward velocity was, on average, approximately ten times greater than average hyphal growth rate. Actin depolymerization reduced fungal Golgi forward velocity while MT depolymerization did not. However, MT stabilization increased fungal Golgi forward velocity. <p>Polymerized MTs do not appear to be essential for hyphal growth but do appear to be involved in hyphal growth rate variability. MTs also appear to play some role in the movement of fungal Golgi. The distribution and movement of fungal Golgi is clearly related to polarity.

fungi

cauliflower 35S promoter

confocal microscopy

cytoskeleton

Regulation of the versican gene: implications for vascular health and disease

Rahmani, Maziar

05 1900

Versican, a chondroitin sulfate proteoglycan, is one of the main components of the extracellular matrix and hence plays a central role in tissue morphogenesis and a number of pathologic processes. My main goal has been to investigate the mechanisms of versican gene regulation, focusing on the signal transduction pathways, promoter regions, cis-acting elements,and trans- factors. This thesis puts forth new knowledge regarding transcriptional regulation of the human versican gene. In chapter III, I present the cloning of a 752-bp fragment of the human versican promoter (- 634/+118 bp) and nine stepwise 5' deletion fragments in the PGL3-luciferase reporter plasmid. Furthermore, I identify three potential enhancer and two repressor regions in this promoter. I also demonstrate that both cAMP and C/EBPf3 enhanced and repressed versican transcription in HeLa cells and rat aortic smooth muscle cells (SMC),respectively, suggesting that versican transcription is differentially regulated by the respective mediator and transcription factor in epithelial cells and SMC. In chapter IV, I reveal the role ofPI3K/PKB/GSK-30 signaling pathway in regulating versican promoter activity and transcription. Furthermore, I identify that the 0-catenin/TCF-4 transcription factor complex, one of the downstream targets of GSK-3[3, mediates versican promoter activity and transcription. In chapter V, I identify that variations in C-terminal regions of TCF family members determine the irrepressor or enhancer properties on Wnt target genes. Furthermore, I show that curcumin is a strong inhibitor of the P-catenin/TCF-p300 mediated gene expression. In chapter VI, I demonstrate that the androgen receptor trans-activates versican transcription in prostate cancer cells. Furthermore, I show cross-talk between the androgen receptor and 13-catenin in regulating versican transcription in prostate stromal fibroblasts. Overall, this study charts previously uncharacterized promoter elements, transcription factors, and signal transduction pathways involved in regulation of the versican gene.

versican gene

transcriptional regulation

promoter

transcription factor

Impact of tylosin phosphate, flaxseed, and flaxseed fractions on small intestinal microbial profiles in pigs

Smith, Laura Faye

24 April 2006

Understanding how antimicrobial growth promoters (AGPs) affect small intestinal microbiota may help to discover effective alternatives. The impact of dietary supplementation with tylosin phosphate on small intestinal microbial profiles was investigated in growing pigs, and compared with the microbial profile of pigs fed flaxseed or its fractions. Eighteen ileal-cannulated barrows (33.1 +/- 2.4 kg) received either the control diet (C, wheat, peas and soybean meal), or C plus 22 mg/kg tylosin phosphate (T), 20% whole flaxseed (WF), 18% hot-water extracted flaxseed (HWE), 4% flaxseed hulls (H), or 8% flaxseed oil (O) during three 21-d periods in a change over design. Ileal digesta (100 mL) was collected on d 16 and 17 of each period. Two chaperonin-60 universal target (cpn60 UT) libraries were constructed from pooled ileal digesta DNA extracted from the C and T diets. A total of 1634 nucleotide sequences were determined, and 117 different cpn60 UT sequences identified. Microbial diversity was greatest in the C library compared to T. Taxonomic composition between libraries differed, and included Lactobacillales (94% of C and 86% of T sequences), Enterobacteriaceae (3% of C and 13% of T), Clostridiales, Bacillales and Bifidobacterium taxa. T had a reduced ratio of Lactobacillales: Enterobacteriaceae sequences (6:1) compared to C (35:1). Lactobacilli: enterobacteria plate count ratios were highest in WF compared to C or T diets. Lactobacillus johnsonii genomes detected by qPCR were increased by 17.2 and 12%, in T and WF diets, respectively, compared to C. Numbers of L. amylovorus genomes were 25% lower in the H diet compared to C. Numbers of Escherichia coli and Streptococcus alactolyticus genomes were unaffected by dietary treatment, despite differences in library clone frequency for these species. Increased L. johnsonii colonization with tylosin suggests possible probiotic properties of this bacterium. Only inclusion of whole flaxseed resulted in a similar increase in L. johnsonii. Overall, ileal microbial profiles of growing pigs were similar and remained mostly unaffected by dietary tylosin or flaxseed inclusion.

antimicrobial growth promoter

bacteria

DNA

chaperonin-60

Molecular characterization of a <i>fusarium graminearum</i> lipase gene and its promoter

Feng, Jie

07 February 2007

A triglyceride lipase gene FgLip1 was identified in the genome of <i>Fusarium graminearum</i> strain PH-1. Yeast cells overexpressing FgLip1 showed lipolytic activity against a broad range of triglyceride substrates. Northern blot analyses revealed that expression of FgLip1 was activated in planta during the fungal infection process and under starvation conditions <i>in vitro</i>. FgLip1 expression was strongly induced in minimal medium supplemented with wheat germ oil, but only weakly induced by olive oil and triolein. Saturated fatty acids were the strongest inducers for FgLip1 expression and this induction was proportionally suppressed by the presence of unsaturated fatty acids. To determine the potential function of FgLip1, gene replacement was conducted on strain PH-1. When compared to wild-type PH-1, ∆FgLip1 mutants showed greatly reduced lipolytic activities at the early stage of incubation on minimal medium supplemented with either saturated or unsaturated lipid as the substrate, indicating that FgLip1 encodes a secreted lipase for exogenous lipid hydrolysis. The ∆FgLip1 mutants exhibited growth deficiency on both liquid and solid minimal media supplemented with the saturated triglyceride tristearin as the sole carbon source, suggesting that FgLip1 is required for utilization of this substance. No variation in disease symptoms between the ∆FgLip1 mutants and the wild-type strain was observed on susceptible cereal hosts including wheat, barley and corn. To delineate the promoter region responsible for the specific regulation of FgLip1 expression, a series of deletions of FgLip1 5 upstream region were fused with the open reading frame of a green florescent protein (GFP) gene and the constructs were introduced into <i>F. graminearum</i>. GFP expression in the resulting transformants indicated that a 563-bp FgLip1 promoter sequence was sufficient to regulate expression of the FgLip1 gene and regulatory elements responsible for gene induction were located within the 563-372 bp region. To further investigate the regulatory elements, putative cis-acting elements within the 563-372 bp region were mutated using a linker-scanning mutagenesis approach. A CCAAT box, a CreA binding site, and a fatty acid responsive element (FARE) were identified and confirmed to be responsible for FgLip1 basal expression, glucose suppression and fatty acid induction, respectively.

lipase

FHB

promoter

pathogenicity

Fusarium graminearum

<i>In vivo</i> study of the role of the cytoskeleton and fungal golgi in hyphal tip growth of <i>Aspergillus nidulans</i>

Hubbard, Michelle Anne

07 May 2007

Filamentous fungi, such as <i>Aspergillus nidulans</i>, are composed of tubular, highly polarized, multinucleate cells called hyphae. Polar growth involves secretion specifically at the hyphal tip. Secretion involves intracellular transport and co-ordination of the cytoskeleton and the endomembrane system. <p>Intracellular transport is likely mediated by cytoskeletal elements, which, in fungal cells consist primarily of actin and microtubules (MTs). An <i>A. nidulans</i> strain transformed with green fluorescent protein (GFP) tagged α-tubulin was utilized in the investigation of relationship between cytoplasmic MT arrays and hyphal growth rate. <i>A. nidulans</i> MTs were observed to be long and flexuous and to run roughly parallel to the long axis of hyphae. No correlation between relative MT abundance and hyphal growth rate was observed, although non-growing hyphae had a lower relative MT abundance than growing hyphae. Actin depolymerization decreased hyphal growth rate while MT depolymerization did not. MT stabilization increased hyphal growth rate. Ethanol, the solvent in which the MT and actin inhibitors were dissolved, increased both average overall growth rate and growth rate variability for individual hyphae. Taxol appeared to interact with irradiation to decreased growth rate during imaging. <p>Golgi are involved in secretion and potentially in polar growth. An <i>A. nidulans</i> α-coatomer protein (COP)I homolog (α-COPI), tagged with GFP, was used to investigate the role(s) of fungal Golgi in polar growth. α-COPI-GFP co-localized with the known Golgi marker, α-2,6-sialyltransferase (ST), tagged with red fluorescent protein (RFP), in untreated hyphae. Based on this observation, I propose that α-COPI-GFP can be used as a proxy for fungal Golgi localization. Fungal Golgi were more abundant at hyphal tips than subapically. Fungal Golgi forward (tipward) velocity correlated with hyphal growth rate. Fungal Golgi forward velocity was, on average, approximately ten times greater than average hyphal growth rate. Actin depolymerization reduced fungal Golgi forward velocity while MT depolymerization did not. However, MT stabilization increased fungal Golgi forward velocity. <p>Polymerized MTs do not appear to be essential for hyphal growth but do appear to be involved in hyphal growth rate variability. MTs also appear to play some role in the movement of fungal Golgi. The distribution and movement of fungal Golgi is clearly related to polarity.

fungi

cauliflower 35S promoter

confocal microscopy

cytoskeleton

Effects of cadmium on the activity and gene expression of peroxidase isozymes in different Oryza sativa varieties

Chang, Min-Lang

24 December 2011

Cadmium (Cd) is one of the major contaminants in agricultural soil, threatening agricultural production and human health. The objectives of this research work were to understand the tolerance mechanism in rice (Oryza sativa L.) genotype with more Cd-tolerance, and the relation between changes of peroxidases activities and peroxidase gene expression profiles after Cd-treated. For more, we analysis about cis-acting elements in the rice peroxidase genes promoter sequences region, gene structure of rice peroxidase genes and phylogenic relation among 9 peroxidase genes which were blasted from 6 Arabidopsis thaliana Cd-induced based on the peroxidase genes protein sequences. We used 9 upland and 32 varieties rice seeds as materials for germination and the growth of seedlings test with 50 or 500 £gM CdCl2 application, respectively. Rice seeds germination is a complex physiological and biochemical process, and is highly affected by cadmium. The results showed that Cd inhibited both the growth of radicles and coleoptiles. At germination stage, Cd highly inhibited the growth of upland rice. Among these rice varieties, Japonica type cultivars are more tolerant to Cd, but Indica type are more sensitive to Cd. Upland rice cultivars are the most sensitive to Cd. At seedling stage, Cd highly inhibited the growth of roots, but slightly inhibited the growth of shoots. To cope with Cd-induced stresses, plants adopt different strategies and posses a variety of defense mechanisms to prevent themselves from Cd damage. Peroxidase (POXs) is an important antioxidative enzyme for defense responses against Cd oxidative stress. The results suggested that different rice variety has a specific peroxidase gene expression pattern by the pI focusing electrophoresis after Cd-treated, and the peroxidase activities are significant differences when these rice varieties faced Cd stress. In this study, we searched the rice databases (japonica type) and cloned the promoter sequences of the indica type of the rice peroxidase genes, pI 4.5 POX and pI 5.1 POX genes. According to the search results about cis-acting elements from PLACE and PlantCARE databases, these cis-acting elements can be divided into three classes, showing as follow¡G1. Transcriptional related; 2. Light regulated related, and 3. Plant hormones- and stress-related. Based on all reported cis-acting elements, there are many types of transcription factors (TFs) involved in regulation of rice pI 4.5 POX and pI 5.1 POX genes expression. These TFs, which can recognize the specific cis-acting elements to regulate the gene expression, and will be induced by stresses and defense-related plant hormones. We found a cis-acting element (CURECORECR) which response to copper in both rice peroxidase genes promoter regions. There is a number of difference between Japonica type and Indica type peroxidase genes, japonica type peroxidase has more cis-acting elements than indica type. Plant class III peroxidases are present in all land plants. All land plant peroxidase genes are with the same putative ancestor of peroxidase genes and are orthologous genes, but they have specific functions of individual perxidase genes owing to their promoter sequences are very divergent. We used 6 Arabidopsis Cd-related peroxidases protein sequences as a starting point for rice peroxidase datas mining. We found 9 rice peroxidase genes have a closely relation among them. For more details about these rice peroxidase genes, searching each one of these rice peroxidases its gene structure on the Rice Genome Annotation Project (RGAP), comparison and their relation. The expressions of these peroxidase genes are very different among them after Cd treatment, and we also found the same cis-acting element (CURECORECR) which response to copper in all 9 rice peroxidase genes promoter regions. There is a number of difference among them.

cadmium

Oryza sativa

gene expression

promoter

peroxidase

Chromatin dynamics at the Saccharomyces cerevisiae PHO5 promoter

Jessen, Walter Joseph

12 April 2006

In eukaryotes, the organization of DNA into chromatin is a primary determinant of gene expression. Positioned nucleosomes in promoter regions are frequently found to regulate gene expression by obstructing the accessibility of cis-regulatory elements in DNA to trans-factors. This dissertation focuses on the chromatin structure and remodeling program at the S. cerevisiae PHO5 promoter, extending the use of DNA methyltransferases as in vivo probes of chromatin structure. Our studies address the diversity of histone-DNA interactions in vivo by examining nucleosome conformational stabilities at the PHO5 promoter. We present high-resolution chromatin structural mapping of the promoter, required to relate in vivo site accessibility to nucleosome stability and show that the PHO5 promoter nucleosomes have different accessibilities. We show a correlation between DNA curvature and nucleosome positioning, which is consistent with the observed differences in accessibility/stability. Kinetic analyses of the chromatin remodeling program at PHO5 show that nucleosomes proximal to the enhancer are disrupted preferentially and prior to those more distal, demonstrating bidirectional and finite propagation of chromatin remodeling from bound activators and providing a novel mechanism by which transactivation at a distance occurs.

PHO5

promoter

chromatin

remodeling

nucleosome

accessibility