Characterization of the role of Zea mays burp domain-containing genes in maize drought responses

Phillips, Kyle

January 2016

Philosophiae Doctor - PhD / Global climate change has resulted in altered rainfall patterns, causing annual losses in maize crop yield due to water deficit stress. Therefore, it is important to produce maize cultivars which are more drought-tolerant. This not an easily accomplished task as plants have a plethora of physical and biochemical adaptation methods. One such mechanism is the drought-induced expression of enzymatic and non-enzymatic proteins which assist plants to resist the effects of water deficit stress. The RD22-like protein subfamily is expressed in response to water deficit stress. Members of the RD22-like subfamily include AtRD22, GmRd22 and BnBDC1 which have been identified in Arabidopsis thaliana, Glycine max and Brassica napus respectively. This study aims at characterising two putative maize RD22-like proteins (designated ZmRd22A and ZmRd22B) by identifying sequence/domain features shared with characterised RD22-like proteins. Semi-quantitative and quantitative PCR techniques were used to examine the spatial and temporal expression patterns of the two putative maize Rd22-like proteins in response to, water deficit stress and exogenously applied abscisic acid in the roots and 2nd youngest leaves of maize seedlings. Using an in silico approach, sequence homology of the two putative maize Rd22- like proteins with AtRD22, GmRD22 and BnBDC1 has been analysed. Online bioinformatic tools were used to compare the characteristics of these Rd22-like proteins with those of the two maize proteins. It was shown that the putative maize RD22-like proteins share domain organisation with the characterised proteins, these common features include a N-terminal hydrophobic signal peptide, followed by a region with a conserved amino acid sequence, a region containing several TxV (x is any amino acid) repeat units and a C-terminal BURP domain-containing the conserved X₅-CH-X₁₀-CH-X₂₃-₂₇-CH-X₂₃-₂₆-CH-X₈-W motif. The putative maize Rd22-like protein appears to be localized in the apoplast, similarly to AtRD22, GmRD22 and BnBDC1. Analysis of the gene's promotor regions reveals cis-acting elements suggestive of induction of gene expression by water deficit stress and abscisic acid (ABA). Semi-quantitative and quantitative real time PCR analysis of the putative maize RD22-like gene revealed that the genes are not expressed in the roots. Exposure to water deficit stress resulted in an increase of ZmRD22A transcript accumulation in the 2nd youngest leaves of maize seedlings. ZmRD22A was shown to be non-responsive to exogenous ABA application. ZmRD22B was highly responsive to exogenous ABA application and responded to water deficit stress to a lesser degree. Transcript accumulation studies in three regions of the 2nd youngest leaves in response to water deficit stress showed that ZmRd22A transcripts accumulate mainly at the base and tips of the leaves. A restricted increase in ZmRD22A transcript accumulation in the middle of the leaves was observed. ZmRD22B showed a similar, but weaker transcript accumulation pattern in response to water deficit stress. However, ZmRD22B showed increased transcript accumulation in the middle region of the leaves. In response to exogenous ABA application, ZmRd22B exhibited high transcript accumulation at the base of the 2nd youngest leaves, with the middle showing higher transcript accumulation than the tip of the leaves. It was concluded that ZmRD22A and ZmRD22B share the domain organisation of characterised RD22-like proteins as well as being responsive to water deficit stress, although only ZmRD22B was shown to be responsive to exogenous ABA application. / National Research Foundation (NRF)

BURP-domain containing protein

RD22-like proteins

Water deficit stress

Transcript accumulation

Maize

Abscisic acid

Coevolution of plastid genomes and transcript processing pathways in photosynthetic alveolates

Dorrell, Richard G.

January 2014

Following their endosymbiotic uptake, plastids undergo profound changes to genome content and to their associated biochemistry. I have investigated how evolutionary transitions in plastid genomes may impact on biochemical pathways associated with plastid gene expression, focusing on the highly unusual plastids found in one group of eukaryotes, the alveolates. The principal photosynthetic alveolate lineage is the dinoflagellate algae. Most dinoflagellate species harbour unusual plastids derived from red algae. The genome of this plastid has been fragmented into small, plasmid-like elements termed “minicircles”. Transcripts of this genome receive a 3’ poly(U) tail and, in some species, undergo extensive sequence editing. Some dinoflagellates have replaced their original plastids with others, in a process termed “serial endosymbiosis”. The major non-photosynthetic alveolates are the apicomplexans, which include the malaria parasite Plasmodium. Apicomplexans are descended from free-living algae and possess a vestigial plastid, which originated through the same endosymbiosis as the ancestral red dinoflagellate plastid. This plastid has lost all genes involved in photosynthesis and does not possess a poly(U) tail addition pathway. I have investigated the consequences of the fragmentation of the red algal dinoflagellate plastid genome on plastid transcription. I have characterised non-coding transcripts in plastids of the dinoflagellate Amphidinium carterae, including the first evidence for antisense transcripts in an algal plastid. Antisense transcripts in dinoflagellate plastids do not receive poly(U) tails, suggesting that poly(U) tail addition may play a role in strand discrimination during transcript processing. I have additionally characterised transcript processing in dinoflagellate plastids that were acquired through serial endosymbiosis. I have shown that poly(U) tail addition and editing occur in the haptophyte-derived serial endosymbionts of the fucoxanthin-containing dinoflagellates Karenia mikimotoi and Karlodinium veneficum. This is the first evidence that plastids acquired through serial endosymbiosis may be supported by pathways retained from previous symbioses. Transcript editing constrains the phenotypic consequences of divergent mutations in fucoxanthin plastid genomes, whereas poly(U) tail addition plays a central role in recognising and processing translationally functional fucoxanthin plastid mRNAs. I have additionally shown that certain genes within fucoxanthin plastids are located on minicircles. This demonstrates convergent evolution in the organisation of the fucoxanthin and red algal dinoflagellate plastid genomes since their endosymbiotic acquisition. Finally, I have investigated transcript processing in the algae Chromera velia and Vitrella brassicaformis. These species are closely related to apicomplexans but are still photosynthetic and apply poly(U) tails to plastid transcripts, as with dinoflagellates. I have shown that poly(U) tails in these species are preferentially associated with translationally functional mRNAs of photosynthesis genes. This is the first plastid transcript processing pathway documented to target a specific functional gene category. Poly(U) tail addition may direct transcript cleavage and allow photosynthesis gene transcripts to accumulate to high levels. The loss of this pathway from ancestors of apicomplexans may have contributed to their transition from photosynthesis to parasitism.

572.8

Bayesian methods for gene expression analysis from high-throughput sequencing data

Glaus, Peter

January 2014

We study the tasks of transcript expression quantification and differential expression analysis based on data from high-throughput sequencing of the transcriptome (RNA-seq). In an RNA-seq experiment subsequences of nucleotides are sampled from a transcriptome specimen, producing millions of short reads. The reads can be mapped to a reference to determine the set of transcripts from which they were sequenced. We can measure the expression of transcripts in the specimen by determining the amount of reads that were sequenced from individual transcripts. In this thesis we propose a new probabilistic method for inferring the expression of transcripts from RNA-seq data. We use a generative model of the data that can account for read errors, fragment length distribution and non-uniform distribution of reads along transcripts. We apply the Bayesian inference approach, using the Gibbs sampling algorithm to sample from the posterior distribution of transcript expression. Producing the full distribution enables assessment of the uncertainty of the estimated expression levels. We also investigate the use of alternative inference techniques for the transcript expression quantification. We apply a collapsed Variational Bayes algorithm which can provide accurate estimates of mean expression faster than the Gibbs sampling algorithm. Building on the results from transcript expression quantification, we present a new method for the differential expression analysis. Our approach utilizes the full posterior distribution of expression from multiple replicates in order to detect significant changes in abundance between different conditions. The method can be applied to differential expression analysis of both genes and transcripts. We use the newly proposed methods to analyse real RNA-seq data and provide evaluation of their accuracy using synthetic datasets. We demonstrate the advantages of our approach in comparisons with existing alternative approaches for expression quantification and differential expression analysis. The methods are implemented in the BitSeq package, which is freely distributed under an open-source license. Our methods can be accessed and used by other researchers for RNA-seq data analysis.

572

Cocaine- and Amphetamine-Regulated Transcript-Immunoreactivity in the Rat Sympatho-Adrenal Axis

Dun, N. J., Dun, S. L., Kwok, E. H., Yang, J., Chang, J. K.

07 April 2000

Distribution of cocaine- and amphetamine-regulated transcript-like immunoreactivity (CART-LI) was studied in the rat spinal cord, sympathetic ganglia and adrenal glands by immunohistochemical methods, utilizing a polyclonal antiserum raised against the CART peptide fragment 55-102. CART-LI was detected in nerve fibers and in basket-like terminals surrounding many postganglionic neurons of the superior cervical ganglion (SCG), stellate, paravertebral and prevertebral ganglia. Postganglionic neurons exhibited low or non-detectable levels of CART-LI. Surgical sectioning of the cervical sympathetic trunk for 6-7 days resulted in a nearly complete loss of CART-LI fibers and terminals in the SCG. In the adrenal gland, CART-LI nerve fibers formed a plexus underneath the capsule, some of which bifurcated and made a sharp turn toward the adrenal medulla, where clusters of chromaffin cells were intensely labeled. The detection of CART-LI in sympathetic ganglia and adrenal glands extends the previous observation of the presence of CART-LI in sympathetic preganglionic neurons and further supports the notion that CART peptide(s) may function as a signaling molecule in the sympatho-adrenal axis.

chromaffin cells

paravertebral ganglia

prevertebral ganglia

superior cervical ganglion

Alternative splicing of the zebrafish myosin phosphatase targeting subunit, MYPT1, produces a novel isoform

Young, Kyle E.

01 January 2016

Alternative splicing of the zebrafish Myosin Phosphatase Targeting Subunit, MYPT1, produces a novel isoform (TV202). TV202 and the truncated TV202Δ ere shown to form an active complex with Protein Phosphatase 1 β (PP1β) via stress fiber assay. TV202 was also shown to be localized in the cytoplasm, enriched in a paranuclear manner. TV202Δ was found the be localized inside the nucleus. It was also found that TV202 was zygotically, but not maternally, expressed during early zebrafish development via RT-PCR.

Biology

Biological sciences

Alternative splicing

MYPT1

Myosin phosphatase

TV202

Transcript variant

Zebrafish

Biology

Functional genomics of wood degradation and biosynthesis

Rajangam, Alex S.

January 2005

Forest biotechnology is a fast emerging field of research. The application of biotechnological tools will enhance the quality of the forest products. The resultant value added and environmentally sustainable products are an absolute necessity in the future. The study of wood biosynthesis and degradation will result in enormous knowledge resources, which can be used for exploiting wood properties. This thesis addresses questions representing both wood degradation and biosynthesis. The wood degrading fungus Phanerochaete chrysosporium is expression profiled with the microarray technology. The objective is to understand the expression pattern of the extracellular carbohydrate active enzymes (CAZymes) secreted by the organism. The data obtained increases our understanding of gene expression upon growth on cellulose. Wood biosynthesis is studied with the model wood forming tree species, Populus. The plentiful data resources from the expression profiling during wood formation in Populus are used as the platform of this work. One of the wood specific genes, PttMAP20, previously with an unknown function is studied in this thesis. The immunolocalisation of PttMAP20 with specific antibodies is demonstrated. The putative microtubule-targeting domain of the protein is demonstrated microscopically and by using a biochemical binding assay. / QC 20101217

populus

xylogenesis

secondary cell wall

cellulose

hemicellulose

microarrays

transcript profiling

Other Biological Topics

Annan biologi

Scordatura Tuning in Performance and Transcription:A Guide Using Domenico Gabrielli’s Seven Ricercari for Violoncello Solo

Cheon, Sera

19 September 2013

No description available.

Music

Italian tuning

Baroque cello

Domenico Gabrielli

Transcript

Ricercar

Scordatura tuning

Cocaine- and Amphetamine-Regulated Transcript Peptide Attenuates Baroreflex in the Rat.

Scruggs, Phouangmala C.

03 May 2003

Cocaine- and amphetamine-regulated transcript (CART) was first identified in the rat striatum where levels were upregulated following cocaine or amphetamine administration. A dense plexus of CART-immunoreactive fibers is noted in the nucleus of the solitary tract (NTS). Results from tract-tracing and immunohistochemical studies suggest that the dense network of CARTp-fibers in the NTS may arise from nodose ganglia. The present study was undertaken to evaluate the hypothesis that CARTp may alter baroreceptor function in rats. Rats were intravenously administered phenylephrine every 10 min to elicit a baroreflex. CARTp (0.1- 3 nmol) by intracisternal or bilateral intra-NTS microinjection consistently attenuated the phenylephrineinduced bradycardia. In contrast, CARTp antibody potentiated the bradycardia produced from phenylephrine. Microinjection of saline, normal rabbit serum, or concomitant injection of CARTp and CART antibody into the NTS caused no significant change of phenylephrineinduced baroreflex. The result suggests that CARTp released from primary afferents may modulate baroreflex.

Phenylephrine

Nucleus of the solitary tract

Nodose ganglia

Baroreflex

Medical Sciences

Medicine and Health Sciences

Investigating the genetic basis of natural variation in sociability within Drosophila melanogaster

Torabi-Marashi, Arteen

January 2023

Sociability is an individual’s tendency to associate with conspecifics in a non-aggressive manner. Sociability can manifest in the formation of social groups that can reduce predation risk and increase feeding success. Studies of social behaviour in insects are typically through the lens of classically know social insects, however many insect species that have been long thought as non-social have been shown to exhibit social behaviour, in particular Drosophila. A previous experiment evolved lineages of high and low sociable fruit flies (Drosophila melanogaster) following 25 generations of artificial selection, after which RNA and DNA was extracted and sequenced. The main goal of this thesis was to integrate analyses of differential gene expression, transcript usage and population genomics to investigate the genetic architecture of sociability in Drosophila. I developed a pipeline to perform differential gene expression analysis by modelling gene expression using a generalized linear mixed-effect model. Here I found a total of 327 genes differentially expressed and 174 genes differentially expressed between the low and high sociable lineages. Next, I developed a pipeline to perform differential transcript usage analysis using a generalized linear mixed-effect model to model transcript usage. I found 619 genes to have transcripts with differential usage and 190 genes to have transcripts with differential usage between the low and high sociable lineages. Lastly, I developed a pipeline for population genomics to identify regions of the genome under selection. I identified genes that are likely under selection and the overlap between these genes and genes/transcripts found to be differentially expressed/used. Overall, I identified potential genes that are involved in the genetic architecture of sociability and can be further candidate tested. / Thesis / Master of Science (MSc)

bioinformatics

genetics

artificial selection

differential gene expression

differential transcript usage

population genomics

sociability

Drosophila melanogaster

An Insight into GAIT Complex Mediated Translational Silencing

Kapasi, Purvi

January 2008

No description available.

Cellular Biology

Molecular Biology

L13a

GAIT

Ceruloplasmin

eIF4G