Evolutionary and functional characterization of Os-POLLUX, a rice gene orthologous to a common symbiosis gene in legume

Fan, Cui

01 January 2008

Root symbioses with arbuscular mycorrhizal fungi and rhizobial bacteria share a common signaling pathway in legumes. Among the common symbiosis genes are CASTOR and POLLUX, the twin homologous genes in Lotus japonicus that encode putative ion channel proteins. Orthologs of CASTOR and POLLUX are ubiquitously present in both legumes and non-legumes, but their function in non-legumes remains to be elucidated. Here, we use reverse genetic approaches to demonstrate that the rice (Oryza sativa) ortholog of POLLUX, namely Os-POLLUX, is indispensible for mycorrhizal symbiosis in rice. Furthermore, we show that Os-POLLUX can restore nodulation, but not rhizobial infection, to a M. truncatula dmi1 mutant.

Plant Breeding and Genetics

Plant Sciences

Inheritance of Certain Characters and the Linkage Relationships of Factors on Chromosome IV in Barley

Jenkins, Claude J.

01 January 1950

Plant breeding and the development of new or better varieties of plants are essential parts of modern agronomy, horticulture and forestry. The basis for such improvement is a knowledge of the factors and principles of genetics. A number of genetic studies have been made with barley in recent years. This is partly because of the many distinct heritable characters of barley plants. The cultivated species of barley offers the plant breeder and geneticist a wealth of material for genetic studies. Varieties differ in a great many readily distinguishable characters, species hybridize readily, and their small number of chromosomes make it good material for inheritance studies. The barley genetic work has been divided among the principal workers in the U.S., each being responsible for one linkage group. This station has been assigned group IV of which this study is a part. A study of the inheritance of other genes not located in linkage group IV, but appearing in the crosses used, has also been made. This investigation is a by-product of the cereal breeding and improvement program being carried on the Utah Agricultural Experiment Station.

inheritance

certain

characters

linkage

relationships

factors

chromosome IV

barley

crhomosome

Plant Breeding and Genetics

Isolation and characterisation of P450 gene(s) in barley (Hordeum vulgare)

Nguyen, Linh

Unknown Date

In plants, P450 enzymes encoded by P450 genes play a central role in numerous biosynthetic pathways, such as the production of secondary metabolites, stress responses and disease resistance. This thesis reports upon the utilization of molecular biology techniques to study P450 gene(s) in barley (Hordeum vulgare L.).Using several combinations of degenerate primers, a large number of barley P450 gene fragments were cloned and sequenced from two commercial varieties, Chebec and Harrington. Among 247 isolated sequences, twenty six percent were homologous to genes of known function. The abundance of these sequences differed between the two cultivars. Variations in the motif sequences of the cloned genes were also found between these two cultivars. In addition to the cloned fragments, twenty-two putative barley P450 encoding genes were identified from 24,000 cereal sequences in the International Triticeae EST Cooperative (ITEC) database by homology search. Among these Expressed Sequence Tag (EST) sequences, a full-length P450 sequence was selected for further investigation in this study.This novel P450 gene, CYP72A39, was expressed at a very early vegetative stage, but no expression was detected at the reproductive stage. Comparison of expression profiles of this gene and “digital expression” databases confirmed that this gene was homologous to several cereal EST clones with tissue-specific transcripts responding to various environmental stimuli, such as stresses and disease. Among these, many transcripts in barley were obtained from stressed tissues at the vegetative stage, and two transcripts in wheat (Triticum aestivum L.) were expressed after being challenged by barley powdery mildew pathogen (Blumeria graminis f. sp. hordei L.). This suggested that CYP72A39 may play a defence role in the barley seedling.The secondary structure of CYP72A39 was investigated in a comparative analysis using a computational approach. However, attempts to express CYP72A39 in a heterologous system and functional assays of the native protein in barley did not give decisive results, due to the disordered structure of the native protein and limitations of the current method. Screening the 3’ UnTranslated Region (3’UTR) of this gene in 158 genotypes of domesticated, landrace and wild barley revealed two haplotypes, which differed by a 12 base indel positioned between two transversions. The presence of both haplotypes in wild and cultivated barley suggests this polymorphism predates the domestication of barley. This indel was mapped to the long arm of chromosome 6H, less than 10 centi-Morgans (cM) from the gene encoding resistance to powdery mildew in barley (B. graminis). A comparison between haplotype diversity and powdery mildew resistance data for over 102 genotypes showed a weak link between the ‘long’ haplotype and resistance, while the ‘short’ haplotype was associated with susceptibility. There was no evidence for a strong correlation between haplotype and quality type (malt or feed); however, more malting varieties had the long haplotype, suggesting a possible association with some attributes in modern malting barley. There was no evidence for association with other characteristics such as geographic origin, growth habit or row number. Phylogenetic relationship of the CYP72A39 to other CYP72 members was also investigated.

P450

barley

Hordeum vulgare

isolation

characterisation

Plant Breeding and Genetics

Plant Sciences

Isolation and characterisation of P450 gene(s) in barley (Hordeum vulgare)

Nguyen, Linh

Unknown Date

In plants, P450 enzymes encoded by P450 genes play a central role in numerous biosynthetic pathways, such as the production of secondary metabolites, stress responses and disease resistance. This thesis reports upon the utilization of molecular biology techniques to study P450 gene(s) in barley (Hordeum vulgare L.).Using several combinations of degenerate primers, a large number of barley P450 gene fragments were cloned and sequenced from two commercial varieties, Chebec and Harrington. Among 247 isolated sequences, twenty six percent were homologous to genes of known function. The abundance of these sequences differed between the two cultivars. Variations in the motif sequences of the cloned genes were also found between these two cultivars. In addition to the cloned fragments, twenty-two putative barley P450 encoding genes were identified from 24,000 cereal sequences in the International Triticeae EST Cooperative (ITEC) database by homology search. Among these Expressed Sequence Tag (EST) sequences, a full-length P450 sequence was selected for further investigation in this study.This novel P450 gene, CYP72A39, was expressed at a very early vegetative stage, but no expression was detected at the reproductive stage. Comparison of expression profiles of this gene and “digital expression” databases confirmed that this gene was homologous to several cereal EST clones with tissue-specific transcripts responding to various environmental stimuli, such as stresses and disease. Among these, many transcripts in barley were obtained from stressed tissues at the vegetative stage, and two transcripts in wheat (Triticum aestivum L.) were expressed after being challenged by barley powdery mildew pathogen (Blumeria graminis f. sp. hordei L.). This suggested that CYP72A39 may play a defence role in the barley seedling.The secondary structure of CYP72A39 was investigated in a comparative analysis using a computational approach. However, attempts to express CYP72A39 in a heterologous system and functional assays of the native protein in barley did not give decisive results, due to the disordered structure of the native protein and limitations of the current method. Screening the 3’ UnTranslated Region (3’UTR) of this gene in 158 genotypes of domesticated, landrace and wild barley revealed two haplotypes, which differed by a 12 base indel positioned between two transversions. The presence of both haplotypes in wild and cultivated barley suggests this polymorphism predates the domestication of barley. This indel was mapped to the long arm of chromosome 6H, less than 10 centi-Morgans (cM) from the gene encoding resistance to powdery mildew in barley (B. graminis). A comparison between haplotype diversity and powdery mildew resistance data for over 102 genotypes showed a weak link between the ‘long’ haplotype and resistance, while the ‘short’ haplotype was associated with susceptibility. There was no evidence for a strong correlation between haplotype and quality type (malt or feed); however, more malting varieties had the long haplotype, suggesting a possible association with some attributes in modern malting barley. There was no evidence for association with other characteristics such as geographic origin, growth habit or row number. Phylogenetic relationship of the CYP72A39 to other CYP72 members was also investigated.

P450

barley

Hordeum vulgare

isolation

characterisation

Plant Breeding and Genetics

Plant Sciences

EXAMINING VEGETATIVE GROWTH OF COOL-SEASON FORAGE GRASSES FOR DAIRY CATTLE GRAZING PREFERENCE

Billman, Eric D.

01 January 2015

The objective of this study was to determine dairy cattle preference amongst four species of cool-season forage grasses: eight orchardgrasses (Dactylis glomerata L.), five tall fescues [Schedonorus arundinaceus (Schreb.) Dumort.], five perennial ryegrasses (Lolium perenne L.), and six festuloliums [xFestulolium braunii (K. Richt.) A. Camus.]; 24 cultivars in total. Each grazing trial utilized four Holstein-Friesian heifers over six hours. Maturity differences were eliminated by having animals graze only vegetative material. After six grazing trials (three each in 2014 and 2015), consistent results in animal preference were not found; three of the six trials did show preference (P

Forage grasses

Preference

Grazing

Dairy

Cool-season

Agronomy and Crop Sciences

Dairy Science

Plant Breeding and Genetics

Genetic Structure of the Florida Key Tree Cactus, Pilosocereus robinii, using Restriction Site associated DNA (RAD) markers

Fotinos, Tonya D

03 July 2013

Rare plant conservation efforts must utilize current genetic methods to ensure the evolutionary potential of populations is preserved. One such effort involves the Key Tree Cactus, Pilosocereus robinii, which is an endangered columnar cactus native to the Florida Keys. The populations have precipitously declined over the past decade because of habitat loss and increasing soil salinity from rising sea levels and storm surge. Next-generation DNA sequencing was used to assess the genetic structure of the populations. Twenty individuals representative of both wild and extirpated cacti were chosen for Restriction Site Associated DNA (RAD) analysis. Samples processed using the HindIII and NotIII restriction enzymes produced 82,382,440 high quality reads used for genetic mapping, from which 5,265 Single Nucleotide Polymorphisms (SNPs) were discovered. The analysis revealed that the Keys’ populations are closely related with little population differentiation. In addition, the populations display evidence of inbreeding and low genetic diversity.

RAD

population genetics

Cactaceae

conservation

Genomics

Plant Breeding and Genetics

Population Biology

Determining the Fate of Hybridized Genomes in the Allopolyploid Brassica napus

Wang, Tina Y

01 July 2010

Polyploidy is widely acknowledged as a widespread mechanism in the evolution and speciation of the majority of flowering plants. Allopolyploid forms through interspecific hybridization and whole genome duplication. While allopolyploids may display increased vigor relative to their progenitors, they can also face challenges to fertility following hybridization. Genetic changes in allopolyploids result from recombination between the hybridized subgenomes, which can influence phenotype and ultimately determine fitness of future generations. To study dynamic changes that follow allopolyploid formation, Brassica napus lineages were derived by hybridizing Brassica oleracea and Brassica rapa. Two lineages of B. napus were analyzed for genetic and phenotypic changes in the S2, S7, and S12 generations. Although these lineages were genetically identical at the time of hybridization, divergence was apparent by the S2 generation. There was a significant increase in sequence loss across generations within both lineages. Four of six generations from both lineages displayed no significant differences to each other in sequence loss relative to the parental generation. In both lineages, there was a bias towards losing sequences from the B. olereacea subgenome. Some individual plants showed novel phenotypes; however, there was no correlation between the examined genetic changes and selected phenotypes.

allopolyploids

genetic changes

hybridization

phenotypes

Genetics and Genomics

Molecular Genetics

Plant Breeding and Genetics

Resistance to and Transmission of Witches' Broom and Comparative Yields of Alfalfa Varieties in the Uintah Basin, Utah

Glover, David Val

01 May 1959

Alfalfa is the most important forage crop in Utah. It is of particular importance to the Uintah Basin, Utah area where alfalfa hay and seed production are major sources of agricultural income. This crop owes much of its popularity to the fact that it will normally produce large yields of good forage on land which is unsuited to more intensive cultivation. In many cases it is impractical to advocate disease control practices which involve extra labor or expense and as a result most diseases of alfalfa, if controlled at all, are controlled by the use of resistant varieties. During the past few years alfalfa witches' broom has become detrimental in the Uintah Basin area. This disease shortens the length of life of alfalfa stands and reduces the yield. Some diseased stands are killed out in a period of three years. It is difficult and expensive to reestablish alfalfa in this area where water supplies are usually low. Therefore, it is imperative that alfalfa stands remain in production for several years. These problems justify a study to find resistance to alfalfa witches' broom. The objectives of this study are to select varieties of alfalfa which are resistant to alfalfa witches' broom in the Uintah Basin area, to select varieties of alfalfa which are best adapted to the area for high yield per acre, to determine which of a few insects tested are responsible for transmission of alfalfa witches' broom virus, and to determine if certain dodder species (Cuscuta spp.) act as transmission bridges for alfalfa witches' broom.

resistance

transmission

witches

broom

comparative

yields

alfalfa

varieties

uintah

basin

utah

Plant Breeding and Genetics

An Inheritance and Linkage Study of Barley with Special Emphasis on Purple Pigmentation of the Auricle

Doney, Devon Lyle

01 May 1961

New and better adapted varieties of crop plants have resulted from the application of the principles of genetics. Fundamental research in the field of barley genetics has helped the plant breeder in developing better varieties for specific uses and adaptability. Barley is one of the best cultivated crop plants for making genetic studies. It has a wide range of adaptability, exhibits a host of contrasting genetic characters, is a simple diploid with only seven pairs of chromosomes, and all the cultivated species are interfertile.

inheritance

linkage

study

barley

emphasis

purple

pigmentation

auricle

Plant Breeding and Genetics

Plant Sciences

General and Specific Combining Ability of five Alfalfa Clones Including Reciprocal Effects for Seedling Vigor and Seed Yield

Bingham, Edwin Theodore

01 May 1961

The use of F1 hybrids for commercial production of such cross-pollinated crops as corn, sorghum, sugar beets, onions, and pearl millet suggests the feasibility of using this technique for alfalfa. Production of F1 hybrids of commercial value is dependent on the use of breeding material expressing good combining ability. In order to obtain precise estimates of combining ability for quantitative characters in alfalfa, it is necessary to produce all possible single crosses among a number of parents. The single cross seed required is difficult to obtain due to the vegetative reproduction and isolation required; and, subsequently, limited testing of this type has been conducted in alfalfa. Testing breeding material for combining ability based on seed production has been more limited than testing based on forage yield or various other measurements. In this experiment a diallel crossing system was used to test the general and specific combining ability of five alfalfa clones previously selected for good general combining ability. The report is based on first-year data of a three-year study, and the results are subject to errors which may occur due to variability inherent in the year of establishment. This is especially true for conclusions based on seed production. However, first-year data should be valid for such characteristics as flower color and seedling height. The analysis of seed production and seedling height is designed to measure the relative amount of general and specific combining ability of the cones involved. Reciprocals of the single crosses were evaluated for flower color, seedling height, and seed yield to check if reciprocal cross progeny give equal performance.

specific

combining

ability

alfalfa

clones

reciprocal

seeding

vigor

yield

Plant Breeding and Genetics