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Investigation of Putative Genetic Factors Associated with Soybean [Glycine Max (L.) Merr.] Seed Quality TraitsSkoneczka, Jeffrey Allen 01 December 2009 (has links)
Soybeans are an economically important plant, with an annual crop value that consistently exceeds 20 billion dollars in the United States alone. A recent increase in demand for soybeans, stemming from its diverse applications in products such as animal feed, oil, and biofuel, has created an emphasis for soybean breeders in value added cultivars. These cultivars, have improved, or altered, agronomic or seed composition traits, allowing them to be efficiently utilized in a specific niche of the processing industry. Facilitating the development of such cultivars requires a thorough understanding of the genetic factors that affect the manifestation of value added traits. Value added traits investigated in this study include seed sucrose, raffinose, stachyose, and phytate content, seed weight, and maturity.
The objective of the first part of this project was to characterize the source of low seed stachyose in soybean line PI200508. Two F2 populations, developed from PI200508 and soybean introductions which exhibited higher seed stachyose content were utilized in a QTL analysis approach that incorporated the use of the Williams82 whole genome shotgun (WGS) sequence (http://www.phytozome.org) in a candidate gene mapping approach. A predicted soybean galactosyltransferase gene was established as a candidate gene due to its observed segregation with the single low stachyose QTL observed on molecular linkage group (MLG) C2 in both populations. Sequencing of this putative gene revealed a unique 3 bp deletion in PI200508. A marker developed to exploit this deletion accounted for 88% and 94% of the phenotypic variance for seed stachyose content in the two experimental populations, highlighting its potential for use in marker assisted selection of the PI200508 source of low raffinose and stachyose.
The second part of this project involved QTL analysis of seed sucrose, raffinose, stachyose, and phytate content, as well as seed weight in a linkage map for a F8 RIL population developed from the Glycine max line V71-370 and the Glycine soja introduction PI40712. Analysis across all 20 soybean MLG identified 25 QTL for these traits on MLG A1, A2, C2, D1b, D2, F, G, H, I, L, M, O. Nine of these QTL were supported across multiple environments, indicating that they, and their associated markers, could be useful to breeders working with these traits.
The third part of this project used the same F8 RIL linkage map to investigate time to maturity (Reproductive stage R8). V71-370 and PI407162 differ in time to maturity when grown in Virginia, and the RILs developed from this cross displayed a wide range in maturity. Two major QTL were identified on MLG H and L. Examination of the Williams82 WGS sequence in these QTL regions revealed two predicted genes with homology to Arabidopsis thaliana light response and photoperiodism genes which were investigated as candidate soybean maturity genes. Markers developed from these predicted genes showed close association with the observed QTL, and could facilitate the further investigation of this complex trait. / Ph. D.
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Caracterização dos genes rafinose sintase e estaquiose sintase em gramíneasPimont, Pedro Teixeira January 2018 (has links)
Orientadora: Profª. Drª. Hana Paula Masuda / Coorientador: Prof. Dr. Danilo da Cruz Centeno / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biotecnociência, São Bernardo do Campo, 2018. / Os oligossacarídeos da série da rafinose (OSRs) são carboidratos formados pela adição
sequencial de um grupo galactosil, geralmente doado por uma molécula de galactinol, à
molécula de sacarose. Essa via é regulada principalmente por três enzimas. A galactinol sintase (GOLS) que é responsável pela síntese de galactinol. A rafinose sintase (RAFS) que transfere o resíduo galactosil do galactinol à molécula de sacarose dando origem a rafinose. E a estaquiose sintase (STS) que é responsável pela transferência de galactosil para a rafinose,
dando origem a estaquiose. Esses açúcares desempenham importantes papéis fisiológicos nas células vegetais e têm sido considerados como moléculas chave na resposta ao estresse abiótico. Cada enzima envolvida no metabolismo dos OSRs é codificada por uma família de gênica. No entanto, ainda são escassos os trabalhos que apresentem descrições sistemáticas dos genes e suas relações evolutivas nas espécies vegetais. Os poucos trabalhos disponíveis focam nos genes que codificam GOLS, frequentemente considerada a enzima-chave da via. O objetivo deste trabalho foi estudar a diversidade e evolução dos genes rafs e sts em monocotiledôneas, para ampliar o conhecimento sobre os genes nessas espécies. Foram investigados genes rafs e sts em oito espécies vegetais, seis monocotiledôneas e duas dicotiledôneas. Também foram produzidas análises filogenéticas, de ortologia e a caracterização dos domínios proteicos nos genes identificados. Os resultados mostraram que RAFS e STS existem em grande diversidade e que são codificadas por vários genes putativos. As árvores filogenéticas permitiram diferenciar rafs de sts, sugerir relações evolutivas entre os genes e identificar diferentes grupos nessa família gênica. Análises de sintenia indicam a existência de genes ortólogos e duplicações in tandem. Por fim, a análise dos domínios proteicos confirmou a similaridade entre rafs e sts. Como conclusão, essa dissertação expande o conhecimento a respeito dos genes codificadores da via do OSRs, fornece informações para futuros trabalhos com foco em biotecnologia e contribui com a descrição das informações genômicas obtidas nos projetos de sequenciamento genético de espécies vegetais. / The raffinose series oligosaccharides (RFOs) are small carbohydrates synthetized by the
sequential addition of a galactosil group, usually donated by a galactinol to sucrose. This
metabolic pathway is regulated, among others, by the galactinol synthase (GOLS) enzyme,
responsible for the synthesis of galactinol; the raffinose synthase (RAFS), responsible for the
transfer of a galactosil group to sucrose, synthetizing rafinose, and; stachyose synthase (STS),
responsible for the transfer of another galactosil group to raffinose, thus producing stachyose. These sugars play important physiological roles on plant cells and are considered key molecules in the response to abiotic stress. The enzymes involved on the RFOs metabolism exhibit a large number of functional genes. However, few studies present systematic descriptions of these genes and their evolutionary relationships on plant species. The few available studies focused on the genes that code for GOLS, frequently considered the key enzyme of RFOs metabolic pathway. The objective of this study was to understand the diversity and evolution of the rafs and sts genes in monocot species, to extend the knowledge on these plant genes. Rafs and sts genes were surveyed in eight plant species, six monocot and two dicot species. Phylogenetic and synteny analyses were performed, as well as, the characterization of the protein domains. The results showed that a large number of putative genes codifies both RAFS and STS, indicating that this gene family have a high diversity in plant genomes. The phylogenetic trees allowed proposing the evolutionary relationships between those genes and suggested the existence of different sequence groups. Synteny analyses showed groups of orthologue genes and in tandem gene duplications. Finally, the protein domain analyses corroborated the high
similarity between rafs and sts. In conclusion, this work expands the knowledge about RFOs
metabolism genes, provided information for further biotechnology studies and contributes to
the description of sequence data from genomics projects.
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On the role of sugar compartmentation and stachyose synthesis in symplastic phloem loading / On the role of sugar compartmentation and stachyose synthesis in symplastic phloem loadingVoitsekhovskaja, Olga Vladimirovna 30 January 2002 (has links)
No description available.
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