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241	A genetic approach to the identification of new components regulating development in <i>Arabidopsis thaliana</i> Fridborg, Ingela January 2000 (has links) <p>Two new genes involved in important processes of plant development were identified in the model plant <i>Arabidopsis thaliana</i>. The genes were isolated from mutants generated through insertional mutagenesis based on a transposon tagging approach.</p><p>The first gene, ALB3, was isolated through the identification of the mutant <i>albino3 (alb3),</i> displaying severe defects in pigmentation and chloroplast biogenesis. The ALB3 protein shows sequence similarity to a yeast protein, OXA1, which is required in the mitochondria for proper assembly of the cytochrome oxidase complex. As ALB3 is localised in thylakoid membranes, we suggest that the ALB3 protein acts in the assembly of thylakoid membrane protein complexes and thereby is crucial for proper chloroplast development and function.</p><p>The second gene, SHI, was identified through the <i>short internodes</i> (shi) mutation, a dwarfing mutation conferring a phenotype similar to mutants defective in the biosynthesis of the plant hormone gibberellin (GA). However, the shi mutant is unable to elongate following treatment with exogenous GA, which indicates that shi is defective in the response to GA. The level of active GA is elevated in the shi mutant, which is the expected result of reduced feedback control of GA biosynthesis. As the shi mutant phenotype is the result of overexpression of the SHI gene, we suggest that the SHI protein is a component of the GA signalling pathway, possibly acting as a repressor of GA-induced cell elongation.</p><p>Sequence similarity database searches revealed that the SHI gene belongs to a new Arabidopsis gene family comprising at least eight members (SHI, LRP1, and SRS1 to SRS6). These genes encode regulatory proteins containing a putative zinc-binding RING finger-like domain. We have cloned SRS1 and SRS2, and have shown by overexpression of these genes in transgenic Arabidopsis that their gene products might function in similar processes as SHI.</p> Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
242	Functional analysis of homeodomain-leucine zipper transcription factors in <i>Arabidopsis thaliana</i> Johannesson, Henrik January 2000 (has links) <p>Homeodomain-leucine zipper (HDZip) proteins constitute a large family of transcription factors apparently unique to plants. To elucidate the function of these factors, the biochemical properties <i>in vitro</i> as well as the effects on transgenic plants when expressed at high levels were studied. The conclusion is that HDZip proteins are very similar with respect to DNA-binding specificity <i>in vitro</i> but appear to be active in different aspects of plant development. Thus, functional specificity of HDZip proteins is most likely determined by other aspects of proteins function, e.g. their capacity to interact with other proteins. </p><p>High-level expression of the HDZip gene <i>ATHB5</i> in transgenic plants results in</p><p>hypersensitivity to the inhibitory effect of the plant hormone abscisic acid (ABA) on seed germination and seedling root growth. Furthermore, the expression of ATHB5 in germinating seedlings is downregulated in the <i>Arabidopsis</i> ABA response mutants <i>abi3</i> and <i>abi5</i>. Together, these data suggest that ATHB5 acts as a regulator of seed germination and postgerminative growth downstream of ABI3 and ABI5 in an ABA response-signaling pathway. </p><p>Enhanced levels of the HDZip gene ATHB13 in transgenic <i>Arabidopsis</i> confer a sugar-dependent reduction of cotyledon width. In addition, a subset of known sugar-dependent genes was hyperinduced by sucrose in Arabidopsis seedlings overexpressing ATHB13. These data suggest that ATHB13 affects both cotyledon morphology and gene regulation as a component of a sucrose-signaling pathway. </p><p>Loss-of-function mutations in <i>ATHB5</i> and <i>ATHB13</i> did not result in any discernable mutant phenotypes, suggesting that these genes are only required under specific physiological conditions or that they act in a redundant fashion in the plant. </p> Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
243	Rates and Patterns of Mutation in Microsatellite DNA Brohede, Jesper January 2003 (has links) <p>Sequence comparisons of orthologous microsatellite loci in cattle and sheep revealed that the substitution rate in microsatellite flanking sequences does not differ from the rate in presumably neutrally evolving intron sequences. This suggests that microsatellites are generally located in regions that are not subjected to selection. Interestingly, a propensity for substitutions to occur in the border region between flanking and repeat sequence was found.</p><p>Pedigree analysis of large numbers of barn swallows revealed extremely high mutation frequencies for the tetranucleotide <i>HrU6</i> and pentanucleotide <i>HrU10</i> repeat loci. A detailed analysis showed that both the rate and the pattern of mutation differed significantly between the two loci.</p><p>Further analysis of <i>HrU6</i> and <i>HrU10</i> mutations, as well as mutation data for another hypermutable locus (<i>HrU9</i>) in barn swallows, revealed that mutations were more likely to arise in some families than others. This was partly, but probably not only, due to an effect of allele length on mutation rate. The mutation rate was found to vary between colonies of breeding birds, but, overall, not between two different populations.</p><p>Single molecule genotyping of DNA prepared from human sperm cells was used to detect mutations at the tetranucleotide repeat <i>D21S1245.</i> A tenfold difference in mutation rate between alleles was found. Three phylogenetically distinct allele lineages could be defined, which differed significantly in mutation rate. Unexpectedly, the mutation rate was not found to increase with male age. </p><p>Microsatellites are commonly applied in a wide range of genetic contexts including linkage mapping, forensic science and population genetics. Obtaining a detailed picture of the evolution of these tandem repeats is important in order to fully understand how to interpret microsatellite data. In addition, studies of the mechanisms underlying microsatellite mutation will provide insights in the processes that shape the eukaryotic genome.</p><p>This thesis demonstrates that microsatellite evolution is a highly heterogeneous process that is dependent on more factors than was previously thought. As the rate and pattern may vary between loci, caution must therefore be taken when building models to handle microsatellite data.</p> Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
244	Epigenetic Regulation of the <i>H19</i> Chromatin Insulator in Development and Disease Holmgren, Claes January 2003 (has links) <p>The coordinated regulation of gene expression must be tightly controlled for normal development to occur. In mammals, this issue is further complicated by the requirement of both the maternal and paternal genomes for normal development, reflecting the fact that a subset of genes are monoallelically expressed depending on parental inheritance, a phenomenon known as genomic imprinting. </p><p>The imprinted <i>H19</i> and <i>Igf2 </i>genes are often considered as paradigms of genomic imprinting, since their monoallelic expression patterns are coordinated <i>via</i> a short stretch of sequence upstream of <i>H19</i>, known as the imprinting control region (ICR). This region is differentially methylated, with specific CpG methylation on the paternal allele. It is shown here that the ICR harbours several maternal-specific hypersensitive sites, located in linker regions between positioned nucleosomes. Furthermore, this region functions as an orientation-dependent insulator, that binds the chromatin insulator factor CTCF. The hypothesis that the methylation status of the ICR dictates the activity of the <i>Igf2</i> gene 90 kb further upstream was confirmed by the demonstration that the insulator function is lost when the ICR is CpG methylated. </p><p>The ICR has previously been shown to act as a silencer when positioned in a promotor-proximal position. The cause of this silencing was shown to be distance-dependent, suggesting that the silencing features of the ICR depend on a chromatin conformation that renders adjacent sequences inaccessible to the RNA polymerase. These data issue a cautionary note with respect to the interpretation of silencer functions.</p><p>In several forms of cancer, the normally silent maternal <i>IGF2</i> gene is expressed, possibly as a result of loss of insulator function at the ICR. The utilisation of CTCF target-sites was analysed in different tumours, and was shown to be highly variable. Methylation analysis showed that potential loss of insulator function and gain of methylation at the maternal ICR did not always correlate with biallelic expression of <i>IGF2</i>. Further investigations uncovered a novel mechanism, in which the activation of the <i>IGF2</i> promoter was independent of insulator function in some cancers.</p><p>This thesis shows that the regulation of the imprinted state of <i>Igf2</i> depends on the formation of an epigenetically regulated chromatin insulator, and that the loss of <i>IGF2</i> imprinting in human cancer can be attributed to several mechanisms, including a novel mechanism that neutralises chromatin insulator function.</p> Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
245	Evolution of a family of plant genes with regulatory functions in development; studies on Picea abies and Lycopodium annotinum Svensson, Mats January 2000 (has links) This work is focused on the molecular genetic basis for morphological change in evolution. Genes belonging to the MADS-box gene family, which includes members, that determine angiosperm floral organ identity, were isolated and characterised from two non-angiosperm plants; Norway spruce (Picea abies) and the club moss (Lycopodium annotinum). The exon/intron organisation of the isolated genes was determined, and its significance as an independent test of the position of a gene within the gene family tree evaluatad. identity genes were identified. One Norway spruce gene, DAL2, is an ortholog to Norway spruce genes that are closely related to the angiosperm floral organ angiosperm C-class MADS-box genes that specify stamen and carpel identity. The expression of DAL2 in male and female cones suggests that orthologous genes in conifers and argiosperms determine the identities of pollen- and seed-bearing structures. Constitutive expression of DAL2 in the angiosperm Arabidopsis resulted in homeotic conversions very similar to those resulting from constiutive expression of the Arabidopsis C-class gene. Angiosperm B-class MADS-box genes determine petal and stamen identity. The isolated Norway spruce B-class orthologs: DAL11, DAL12, and DAL13 are expressed in the developing male cones exclusively, suggesting a conserved function of B-class related genes in the determination of pollen forming organs among seed plants. No orthologs to the floral organ identity genes couId be isolated from the club moss, suggesting that the origin of these gene classes may be coupled to the origin of the pollen and the seed. The club moss MADS-box genes, LAMB2, LAMB4 and LAMB6, conform structurally to plant type MADS-box genes, whereas LAMB1 is divergent in details. The genes LAMB3 and LAMB5 encode shorter proteins. LAMB1 expression is restricted to reproductive structures, whereas LAMB2, LAMB4, LAMB5 and LAMB6 are broadly expressed. The implications from these expression patterns on the ancestral function of plant type MADS-box genes are discussed. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
246	A genetic approach to the identification of new components regulating development in Arabidopsis thaliana Fridborg, Ingela January 2000 (has links) Two new genes involved in important processes of plant development were identified in the model plant Arabidopsis thaliana. The genes were isolated from mutants generated through insertional mutagenesis based on a transposon tagging approach. The first gene, ALB3, was isolated through the identification of the mutant albino3 (alb3), displaying severe defects in pigmentation and chloroplast biogenesis. The ALB3 protein shows sequence similarity to a yeast protein, OXA1, which is required in the mitochondria for proper assembly of the cytochrome oxidase complex. As ALB3 is localised in thylakoid membranes, we suggest that the ALB3 protein acts in the assembly of thylakoid membrane protein complexes and thereby is crucial for proper chloroplast development and function. The second gene, SHI, was identified through the short internodes (shi) mutation, a dwarfing mutation conferring a phenotype similar to mutants defective in the biosynthesis of the plant hormone gibberellin (GA). However, the shi mutant is unable to elongate following treatment with exogenous GA, which indicates that shi is defective in the response to GA. The level of active GA is elevated in the shi mutant, which is the expected result of reduced feedback control of GA biosynthesis. As the shi mutant phenotype is the result of overexpression of the SHI gene, we suggest that the SHI protein is a component of the GA signalling pathway, possibly acting as a repressor of GA-induced cell elongation. Sequence similarity database searches revealed that the SHI gene belongs to a new Arabidopsis gene family comprising at least eight members (SHI, LRP1, and SRS1 to SRS6). These genes encode regulatory proteins containing a putative zinc-binding RING finger-like domain. We have cloned SRS1 and SRS2, and have shown by overexpression of these genes in transgenic Arabidopsis that their gene products might function in similar processes as SHI. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
247	Functional analysis of homeodomain-leucine zipper transcription factors in Arabidopsis thaliana Johannesson, Henrik January 2000 (has links) Homeodomain-leucine zipper (HDZip) proteins constitute a large family of transcription factors apparently unique to plants. To elucidate the function of these factors, the biochemical properties in vitro as well as the effects on transgenic plants when expressed at high levels were studied. The conclusion is that HDZip proteins are very similar with respect to DNA-binding specificity in vitro but appear to be active in different aspects of plant development. Thus, functional specificity of HDZip proteins is most likely determined by other aspects of proteins function, e.g. their capacity to interact with other proteins. High-level expression of the HDZip gene ATHB5 in transgenic plants results in hypersensitivity to the inhibitory effect of the plant hormone abscisic acid (ABA) on seed germination and seedling root growth. Furthermore, the expression of ATHB5 in germinating seedlings is downregulated in the Arabidopsis ABA response mutants abi3 and abi5. Together, these data suggest that ATHB5 acts as a regulator of seed germination and postgerminative growth downstream of ABI3 and ABI5 in an ABA response-signaling pathway. Enhanced levels of the HDZip gene ATHB13 in transgenic Arabidopsis confer a sugar-dependent reduction of cotyledon width. In addition, a subset of known sugar-dependent genes was hyperinduced by sucrose in Arabidopsis seedlings overexpressing ATHB13. These data suggest that ATHB13 affects both cotyledon morphology and gene regulation as a component of a sucrose-signaling pathway. Loss-of-function mutations in ATHB5 and ATHB13 did not result in any discernable mutant phenotypes, suggesting that these genes are only required under specific physiological conditions or that they act in a redundant fashion in the plant. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
248	Functional characterization of the pointed cotyledon subclass of HDZip genes in Arabidopsis thaliana Hanson, Johannes January 2000 (has links) Genes encoding homeodomain leucine zipper, HDZip, transcription factors constitute a large gene family in Arabidopsis thaliana. In this thesis the isolation and characterization of four HDZip genes (ATHB3, -13, -20 and -23) is described. These genes are similar in sequence and form a distinct subclass within the HDZip gene family. Since the genes cause similar alterations in cotyledon shape when expressed constitutively, we refer to the members of this subclass as pointed cotyledon HDZip genes. To determine the biological functions of the genes, the phenotypes of plants constitutively expressing the genes have been analysed. Each of the genes specifically inhibits lateral cell expansion in cotyledons and leaves and thereby causes them to be abnormally narrow. Detailed expression analysis shows that only ATHB23 is expressed in the entire leaf and cotyledon from early stages of development while ATHB20 is predominantly expressed in the root cortex. ATHB13 is expressed in basal parts of mature leaves and floral organs and ATHB3 in root and stem cortex. The ATHB13 protein acts within a signalling pathway that mediates a response to sucrose that specifically regulates the expression of specific sugar-regulated genes. ATHB3 specifically inhibits primary root development without affecting the development of secondary roots when constitutively expressed. Reduced expression of ATHB3 by antisense suppression results in increased expression of ATHB13, indicating that ATHB3 acts as a repressor of ATHB13 expression in the wild type. This thesis also reports the isolation of seven new genes of HDZip class I and reviews available functional information on the genes in this class. One conclusion is that HDZip I proteins that are closely related phylogenetically are also functionally related, in most cases. Seven different mutations in HDZip I genes were also identified. The lack of phenotypic deviations from wild type of these mutants suggests that these HDZip proteins act in a redundant fashion in the plant. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
249	Characterisation of Some Immune Genes in the Black Tiger Shrimp, Penaeus monodon Sritunyalucksana, Kallaya January 2001 (has links) The molecular mechanisms of the immune system in shrimp, Penaeus monodon, are completely unknown, despite its economic importance as an aquaculture species, especially in Asia and Latin America. The genes and their gene products involved in the prophenoloxidase activating system, which is considered to be a non-self recognition and defence system in many invertebrates, have been isolated and characterised in shrimp. These include a zymogen of this cascade, prophenoloxidase (proPO); a cell adhesion protein, peroxinectin and a pattern recognition protein, β-1,3-glucan binding protein (GBP). All proteins are synthesised in shrimp hemocytes, not in the hepatopancreas. The shrimp proPO cDNA clone has 3,002 bp and contains an open reading frame of 2,121 bp encoding a putative polypeptide of 688 amino acids, with a molecular mass of 78.7 kDa. Comparison of amino acids sequences showed that this shrimp proPO was more closely to that of another crustacean, the freshwater crayfish, Pacifastacus leniusculus, than to insect proPOs. Upon activation of the proPO system in shrimp, a cell adhesion activity in the hemolymph is generated. Inhibition of adhesion by an antiserum against the crayfish cell adhesion protein, peroxinectin, revealed that the cell adhesion activity detected in shrimp hemolymph might result from a peroxinectin in shrimp. Indeed, a cDNA clone which encoded shrimp peroxinectin was isolated with an open reading frame of 2,337 bp encoding a putative protein of 778 amino acids including a signal peptide. Two putative integrin-binding motifs (RGD and KGD) are present suggesting that integrin is involved in the adhesion activity. The peroxinectin transcript was slightly reduced in shrimp injected with a β-1,3-glucan or laminarin. Also found in shrimp hemolymph was a 31 kDa-GBP that could bind to β-1,3-glucan polymers such as curdlan and zymosan, but not to LPS. The cDNA sequence of shrimp GBP showed high similarity to that of crayfish LGBP, other insect recognition proteins as well as bacterial and sea urchin glucanases. Shrimp injected with an insoluble β-1,3-glucan, curdlan or heat-killled Vibrio harveyi did not show any significant changes in relevant mRNA levels. An attempt to knock out the LGBP expression by its exogeneous dsRNA was done in a proliferating blood cell culture from the hematopoietic tissue of crayfish. We found that the expression of endogeneous LGBP mRNA could be substantially inhibited by incubation of dsRNA-LGBP in the cell culture. The effect is quick, specific, and also affects the cell behaviours. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi
250	The Nostoc Symbiont of Lichens : Diversity, Specificity and Cellular Modifications Paulsrud, Per January 2001 (has links) Cyanobacteria belonging to the genus Nostoc have the capacity to form symbiotic associations with a wide range of organisms. Diversity, specificity and cellular modifications of the symbiosis between Nostoc and fungi in the formation of lichens were investigated in this thesis. The use of the tRNALeuUAA intron as a genetic marker for the subgeneric identification of Nostoc in complex field material was developed. Lichens belonging to the genera Peltigera and Nephroma show limited variability in their Nostoc symbionts. The in situ symbiont consists of a single strainn rather than a community of different Nostocs, and single thalli consistently contained the same symbiont. Patterns in symbiont identity were found in geographically remote populations and the lichen species, rather than growth locality, was shown to be important for the identity of the Nostoc symbiont. Examination of a P. aphthosa photosymbiodeme revealed that one Nostoc has the capacity to perform the physiological roles found in both bipartite and tripartite lichens. The symbiotic association between bryophytes and Nostoc on the other hand exhibited a much greater variation of Nostoc symbionts. Evolutionary patterns in the tRNALeuUAA intron were analyzed and it was shown that sequence variation was caused by several processes other than random mutations. Such evolutionary processes in genetic markers are crucial to consider, especially if phylogenetic reconstructions are attempted. Protein profiles of symbiotic and free living Nostoc were analyzed using 2-dimensional gel electrophoresis. One of the major proteins in the extracts from freshly isolated symbionts was partially sequenced and shown to contain a fasciclin domain. The corresponding ORF in N. punctiforme was homologous to symbiotically induced genes found in different symbiotic systems. This thesis gives new perspectives on lichens and pr for further exaovides a platform for further examiniations using tools provided by modern biology. Developmental biology Utvecklingsbiologi Developmental biology Utvecklingsbiologi

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