Using wild relatives as a source of traits through introgression breeding and grafting for tomato improvement

Fenstemaker, Sean Michael

January 2021

No description available.

Plant Sciences

Plant Biology

Horticulture

Comparative Genomics of Gossypium spp. through GBS and Candidate Genes – Delving into the Controlling Factors behind Photoperiodic Flowering

Young, Carla Jo Logan

16 December 2013

Cotton has been a world-wide economic staple in textiles and oil production. There has been a concerted effort for cotton improvement to increase yield and quality to compete with non-natural man-made fibers. Unfortunately, cultivated cotton has limited genetic diversity; therefore finding new marketable traits within cultivated cotton has reached a plateau. To alleviate this problem, traditional breeding programs have been attempting to incorporate practical traits from wild relatives into cultivated lines. This incorporation has presented a new problem: uncultivated cotton hampered by photoperiodism. Traditionally, due to differing floral times, wild and cultivated cotton species were unable to be bred together in many commercial production areas world-wide. This worldwide breeding problem has inhibited new trait incorporation. Before favorable traits from undomesticated cotton could be integrated into cultivated elite lines using marker-assisted selection breeding, the markers associated with photoperiod independence needed to be discovered. In order to increase information about this debilitating trait, we set out to identify informative markers associated with photoperiodism. This study was segmented into four areas. First, we reviewed the history of cotton to highlight current problems in production. Next, we explored cotton’s floral development through a study of floral transition candidate genes. The third area was an in-depth analysis of Phytochrome C (previously linked to photoperiod independence in other crops). In the final area of study, we used Genotype-By-Sequencing (GBS), in a segregating population, was used to determine photoperiod independence associated with single nucleotide polymorphisms (SNPs). In short, this research reported SNP differences in thirty-eight candidate gene homologs within the flowering time network, including photoreceptors, light dependent transcripts, circadian clock regulators, and floral integrators. Also, our research linked other discrete SNP differences, in addition to those contained within candidate genes, to photoperiodicity within cotton. In conclusion, the SNP markers that our study found may be used in future marker assisted selection (MAS) breeding schemas to incorporate desirable traits into elite lines without the introgression of photoperiod sensitivity.

Genotype by Sequencing

Cotton

Gossypium

Reduced Representation

Marker Assisted Selection

Loci

Linkage Disequilibrium

Photoperiodism

Photoperiod

Flowering

Wild Germplasm Introgression

GBS

Targeted GBS

Cotton

Duplicate Gene Evolution

Gene Conversion

Gossypium

Polyploidy

Linkage Disequilibrium

Candidate Gene

SNP

Orthologs

Circadian Clock

Paralogs

Phytochrome

Floral

Introgression of genes from rape to wild turnip

Jenkins, Toni E.

January 2005

Introgression of genes from crops into ruderal populations is a multi-step process requiring sympatry, synchronous flowering, chromosomal compatibility, successful pollination and development of the zygote, germination, establishment and reproduction of hybrid progeny. The goal of this thesis was to generate data on as many steps in this process as possible and integrate them into a predictive statistical model to estimate the likelihood of successful introgression under a range of scenarios. Rape (Brassica napus) and wild turnip (B. rapa var. oleifera) were used as a model system. A homozygous dominant mutation in the rape genome conferring herbicide resistance provided a convenient marker for the study of introgression. Potential differences between wild turnip populations from a wide range of geographic locations in New Zealand were examined. Hand pollination established the genetic compatibility of rape and wild turnip and a high potential for gene introgression from rape to wild turnip. Interspecific hybrids were easily generated using wild turnip as the maternal plant, with some minor differences between wild turnip populations. The frequency of successful hybridisation between the two species was higher on the lower raceme. However, the upper raceme produced more dormant interspecific hybrid seed. Field trials, designed to imitate rare rape crop escapes into the ruderal environment, examined the ability of rare rape plants to pollinate wild turnip plants over four summers. At a ratio of 1 rape plant for every 400 wild turnip plants, the incidence of interspecific hybridisation was consistently low (<0.1 to 2.1 % of total seed on wild turnip plants). There was a significant year effect with the first season producing significantly more seed and a greater frequency of interspecific hybrid progeny than the other years. The frequency of interspecific hybrid progeny increases when the ratio of rape: wild turnip plant numbers increases. The relative importance of anemophily and entomophily in the production of interspecific hybrids was examined. Wild turnip plants produced twice as many seeds with bee pollination relative to wind pollination. However, the frequency of interspecific hybrids under wind pollination was nearly twice that for bee pollination. Light reflectance patterns under UV light revealed a marked difference between wild turnip and rape flowers compared to near identical appearance under visible light. The data indicates that bees are able to distinguish between rape and wild turnip flowers and exhibit floral constancy when foraging among populations with these two species. Hybrid survival in the seed bank, germination and seedling establishment in the field are important components of fitness. Seed banks established in the soil after the field trials described above germinated in subsequent spring seasons. The predominantly brassica weed populations were screened for herbicide resistance and the numbers of interspecific hybrids germinating compared to the original frequency in the field trial results. Frequency of interspecific hybrids was reduced in the populations compared to the original seed deposit. Seed with a known frequency of interspecific hybrid seed was sown in a separate trial, and the frequency of interspecific hybrids compared at 0, 4, 6, and 8 weeks after sowing. Poor germination resulted limited competition between seedlings, however the frequency of interspecific hybrids declined over time indicating low plant fitness. There were no significant population effects on any parameters tested. Interspecific hybrids grown in a glasshouse were backcrossed to the parental species and selfed within the plant and within populations. Pollen from the interspecific hybrids was found to have markedly reduced fertility. Interspecific hybrid plants had low female fertility, with the majority (88%) of the pollinated flowers aborting the siliques. Of the remaining siliques, most (98%) had only one to three seeds per silique. Inheritance of the herbicide resistance gene was regular in backcrosses but highly skewed following self pollination with an excess of herbicide-sensitive progeny. Production of a stochastic predictive model integrated the information acquired over the practical work phase of this thesis and utilised the capabilities of @risk, a new application of a risk analysis tool. The three outputs examined were the number of flowering plants resulting from backcrosses to rape and wild turnip and self pollination of the interspecific hybrid progeny. Five scenarios were modelled and all demonstrated the high likelihood of introgression failure in this system. In all scenarios, >75% of simulations resulted in no interspecific hybrid progeny surviving to flowering in the third generation. In all scenarios, and for all three outputs, the seed set on the interspecific hybrids of the second generation was the major factor that limited the number interspecific hybrid progeny surviving to flowering in the third generation.

introgression

Brassica napus

Brassica rapa var. oleifera

wild turnip

rape

interspecific hybridization

pollination

predictive statistical modeling

UV reflectance

pollen vector

risk analysis of transgenic plants

interspecific hybrid fitness

TOMATO FLESHY FRUIT QUALITY IMPROVEMENT: CHARACTERIZATION OF GENES AND GENOMIC REGIONS ASSOCIATED TO SPECIALIZED METABOLISM IN TOMATO FLESHY FRUIT

Fernández Moreno, Josefina Patricia

18 September 2016

Tesis por compendio / [EN] Until recently, the genetic improvement of tomato (Solanum lycopersicum) was focused in agronomic traits, such as yield and biotic or abiotic stresses; therefore the interest in tomato fruit quality is relatively new. The tomato fruit surface can be considered both an agronomic trait as well as a quality trait, because it has an effect on consumer impression in terms of color and glossiness but also it underlies the resistance/sensitivity to cracking or water loss with consequences on fruit manipulation (e.g. transport and processing). The cuticle is deposited over the cell wall surrounding the epidermal cells and it is the first barrier in the plant-environment interface. The cuticle composition includes two main groups of metabolites: cuticular waxes and cutin. Other metabolites can be founded into the cuticle matrix, as triterpenoids and flavonoids. Those minor cuticular components are involved in the correct functionality of the cuticle. Understanding cuticle biosynthesis and genetic regulation requires the development of fast and simple analytical methodologies to study those specialized metabolites using large populations (e.g. mutant collections or introgression lines), together with the identification of genes and genomic regions responsible of their production. This thesis aims to contribute to our understanding of the molecular programs underlying tomato fruit quality by providing: i) a general protocol to profile cuticular waxes in different species, including tomato; ii) a QTL map for cuticular composition (i.e. cuticular waxes and cutin monomers) using the Solanum pennellii introgression line population; iii) a detailed protocol of the reverse genetic tool so-called Fruit-VIGS to assist in the study of gene function in tomato fruit; and iv) a thorough characterization of the first null allele for the transcription factor SlMYB12 (i.e. Slmyb12-pf) in tomato fruit which provides new insights into the regulation of the flavonoid biosynthetic pathway in the fruit peel by high resolution mass spectrometry and RNA-Seq approaches. / [ES] Hasta hace poco, la mejora genética del cultivo del tomate (Solanum lycopersicum) había estado centrada principalmente en caracteres agronómicos, como la productividad y la resistencia a estreses, tanto bióticos como abióticos. Así, el interés en la calidad del fruto de tomate es relativamente reciente. La superficie del fruto del tomate puede considerarse tanto un carácter agronómico como de calidad, pues influye en la primera impresión de los consumidores en términos de color y brillo, así como también en los procesos de resistencia o sensibilidad a la rotura ('cracking') o a la pérdida de agua. Estos factores determinan el aspecto del fruto y condicionan atributos relacionados con su manipulación (transporte y procesado). La cutícula se deposita sobre la pared celular de las células epidérmicas y es la primera barrera que interacciona con el ambiente. Está constituida por dos grandes tipos de metabolitos: las ceras cuticulares y la cutina. Otros metabolitos pueden aparecer embebidos en la matriz cuticular, como es el caso de los triterpenoides y los flavonoides. Estos metabolitos contribuyen a la correcta funcionalidad de la cutícula. La compresión de la biosíntesis y regulación génica de la cutícula requiere del desarrollo de metodologías de análisis sencillas y rápidas para el estudio de estos metabolitos especializados en grandes poblaciones (colecciones de mutantes o líneas de introgresión), así como para la identificación de genes y regiones génicas responsables de la producción y acumulación de dichos compuestos, pudiendo ser muy útiles para implementar programas de mejora de la calidad del tomate. El objetivo de esta tesis es contribuir a la comprensión sobre los programas moleculares subyacentes a la calidad del fruto de tomate, proporcionando: i) un protocolo general de análisis del contenido de ceras cuticulares en diferentes especies, incluyendo el tomate; ii) un mapa de QTL de la composición cuticular (incluyendo ceras y monómeros de cutina) obtenido con la población de líneas de introgresión de Solanum pennellii; iii) un protocolo detallado de uso de la herramienta de genética reversa Fruit-VIGS con el que realizar estudios de funciones génicas en fruto de tomate; y iv) una minuciosa caracterización de un nuevo alelo nulo del factor de transcripción SlMYB12 (Slmyb12-pf) en fruto de tomate, proporcionando nueva información sobre la regulación de la ruta biosintética de los flavonoides en la piel del fruto, utilizando espectrometría de masas de alta resolución y de nuevas tecnologías de secuenciación. / [CA] Fins fa poc de temps, la millora genètica de la tomata (Solanum lycopersicum) anava dirigida fonamentalment als caràcters de tipus agronòmic, com la productivitat i la tolerància a estressos biòtics o abiòtics, resultant que l'interés per la qualitat dels fruits és relativament nou. La superfície de la tomata pot ser considerada tant com un caràcter agronòmic com un de qualitat, ja que és l'aspecte de la superfície del fruit el que confereix al consumidor la primera impressió de color, brillantor, però és també la pell del fruit la responsable de la diferent susceptibilitat del fruit a desenvolupar clevills o que el fruit sofrisca més o menys pèrdues d'aigua, tot tenint importants conseqüències en la manipulació (i.e. transport i processament del fruit). La cutícula és dipositada per sobre de la paret cel·lular que envolta la capa de cèl·lules epidèrmiques i constitueix la primera barrera en la interfase planta-medi ambient. La composició de la cutícula presenta dos grups principals de metabòlits: les ceres i la cutina. També es poden trobar altres metabòlits els triterpenoids i el flavonoids. Aquests darrers components cuticulars menors són implicats en el correcte funcionament de la cutícula. Per tal de comprendre la biosíntesi i la regulació genètica de la cutícula cal desenvolupar tecnologies analítiques senzilles i rapides que permeten estudiar aquests metabòlits especialitzats en poblacions grans de plantes (i.e. Col·leccions de mutants o de línies d'introgressió), a més de la identificació de gens i regions genòmiques que són responsables de la seua producció. Aquesta tesi té com a objectiu contribuir a millorar la nostra comprensió dels programes moleculars que afecten determinats aspectes de la qualitat de la tomata mitjançant els següents objectius: i) proporcionar un protocol general per obtenir perfils de ceres cuticulars en diferents espècies, inclosa la tomata; ii) obtenir un mapa de QTL per a la composició cuticular (i.e. ceres cuticulars i monòmers de cutina) mitjançant la utilització de la població de línies d'introgressió de Solanum pennelli; iii) descriure amb detall el protocol d'una eina de revers genètica denominada Fruit-VIGS que resulta molt adequada per estudiar funció gènica a la tomata; y iv) fer una caracterització exhaustiva del primer al·lel nul del factor de transcripció SlMYB12 (ie. Slmyb12-pf) en tomata la qual proporciona informació nova sobre la regulació de la ruta de biosíntesi de flavonoides en la pell de la tomata mitjançant espectrometria de masses d'alta resolució i RNAseq. / Fernández Moreno, JP. (2015). TOMATO FLESHY FRUIT QUALITY IMPROVEMENT: CHARACTERIZATION OF GENES AND GENOMIC REGIONS ASSOCIATED TO SPECIALIZED METABOLISM IN TOMATO FLESHY FRUIT [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/55505 / TESIS / Premios Extraordinarios de tesis doctorales / Compendio

Tomato fleshy fruit

Quality improvement

Cuticle

Specialized metabolism

Waxes

Cutis

Flavonoids

Anthocyanins

Wax-extraction methodology

GC-MS

LC-MS

Fruit-VIGS

RNA-Seq

QTLs

Solanum pennellii introgression lines

EMS-mutants

Genes and genomic regions

Gene silencing

MYB-type transcription factor

Candidate gene approach

BIOQUIMICA Y BIOLOGIA MOLECULAR

Maize and Sunflower of North America: Conservation and Utilization of Genetic Diversity

Kost, Matthew

January 2014

No description available.

Agriculture

Biology

Conservation

Ecology

Horticulture

Molecular Biology

Plant Biology

Plant Sciences

Sustainability

Demography of Birch Populations across Scandinavia

Sendrowski, Janek

January 2022

Boreal forests are particularly vulnerable to climate change, experiencing a much more drastic increase in temperatures and having a limited amount of more northern refugia. The trees making up these vast and important ecosystems already had to adapt previously to environmental pressures brought about by the repeated glaciations during past ice ages. Studying the patterns of adaption of these trees can thus provide valuable insights on how to mitigate future damage. This thesis presents and analyses population structure, demo- graphic history and the distribution of fitness effects (DFE) of the diploid Betula pendula and tetraploid B. pubescens across Scandinavia. Birches–being widespread in boreal forests as well as having great economical importance–constitute superb model species. The analyses of this work confirm the expectations on postglacial population expansion and diploid-tetraploid introgression. They furthermore ascertain the presence of two genetic clusters and a remarkably similar DFE for the species. This work also contributes with a transparent, reproducible and reusable pipeline which facilitates running similar analyses for related species.

birch

betula

pubescens

pendula

betula pubescens

betula pendula

silver birch

downy birch

demography

population structure

distribution of fitness effects

DFE

dadi

UMAP

PCA

ADMIXTURE

polyDFE

ice age

glaciation

tree

boreal forest

climate change

adaption

tetraploid

diploid-tetraploid introgression

Scandinavia

genetic cluster

pipeline

snakemake

bioinformatics

reproducible

population genetics

postglacial population expansion

demographic history

FEEMS

site-frequency spectrum

SFS

last glacial maximum

LGM

workflow

python

population expansion

population growth

EST-SFS

0-fold degenerate

4-fold degenerate

maximum likelihood estimation

MLE

variant call format

VCF

single-nucleotide polymorphism

SNP

Bioinformatics (Computational Biology)

Bioinformatik (beräkningsbiologi)