Optimizing Visualization of Pollen Tubes in Wheat Pistils.

Successful pollination and fertilization are crucial for grain setting in cereals. Wheat is an allohexaploid autogamous species. Due to its evolutionary history, the genetic diversity of current bread wheat () cultivars is limited.

The prominent multiplication of Japanese soil-borne wheat mosaic virus co-infected with barley yellow mosaic virus in barley.

Various members of the viral genera Furovirus and Bymovirus are damaging pathogens of a range of crop species. Infection of the soil-borne plasmodiophorid Polymyxa graminis transmits both Japanese soil-borne wheat mosaic virus (JSBWMV) and the barley yellow mosaic virus (BaYMV) to barley, but their interaction during an episode of their co-infection has not been characterized to date. Here, we present an analysis of the titer of JSBWMV and BaYMV in plants of winter barley growing over a five-month period from late fall until mid-spring.

Identification of Isolates Breaking Resistance in Japan.

In early spring 2018, significant mosaic disease symptoms were observed for the first time on barley leaves ( L., cv. New Sachiho Golden) in Takanezawa, Tochigi Prefecture, Japan.

Series of Resistance Genes in Barley () that Control Barley Yellow Mosaic Virus Multiplication and the Root-to-Leaf Systemic Movement.

The infection of young winter barley (e L.) root system in winter by barley yellow mosaic virus (BaYMV) can lead to high yield losses. Resistance breeding is critical for managing this virus, but there are only a few reports on resistance genes that describe how the genes control BaYMV propagation and the systemic movement from the roots to the leaves.

Organ-enriched gene expression during floral morphogenesis in wild barley.

Floral morphology varies considerably between dicots and monocots. The ABCDE model explaining how floral organ development is controlled was formulated using core eudicots and applied to grass crops. Barley (Hordeum.

Genetic resistance in barley against functions in the roots.

Infection by the (JSBWMV) can lead to substantial losses in the grain yield of barley and wheat crops. While genetically based resistance to this virus has been documented, its mechanistic basis remains obscure. In this study, the deployment of a quantitative PCR assay showed that the resistance acts directly against the virus rather than by inhibiting the colonization of the roots by the virus' fungal vector .

Wheat originated from and confers resistance to soil-borne infection to the roots.

(WYMV) is a pathogen transmitted into its host's roots by the soil-borne vector . and genes protect the host from the significant yield losses caused by the virus, but the mechanistic basis of these resistance genes remains poorly understood. Here, it has been shown that and act within the root either by hindering the initial movement of WYMV from the vector into the root and/or by suppressing viral multiplication.

Genome-Wide Analysis of Gene Family Reveals Potential Role in Regulation of Spike Development in Barley.

Sucrose nonfermenting 2 (Snf2) family proteins, as the catalytic core of ATP-dependent chromatin remodeling complexes, play important roles in nuclear processes as diverse as DNA replication, transcriptional regulation, and DNA repair and recombination. The gene family has been characterized in several plant species; some of its members regulate flower development in Arabidopsis. However, little is known about the members of the family in barley ().

The Brittle Rachis Trait in Species Belonging to the Triticeae and Its Controlling Genes and .

In many non-cultivated angiosperm species, seed dispersal is facilitated by the shattering of the seed head at maturity; in the Triticeae tribe, to which several of the world's most important cereals belong, shattering takes the form of a disarticulation of the rachis. The products of the genes and are both required for disarticulation to occur above the rachis nodes within the genera (barley) and (wheat). Here, it has been shown that both and are specific to the Triticeae tribe, although likely paralogs ( and ) are carried by the family Poaceae including Triticeae (the donor of the bread wheat D genome) lacks a copy of and disarticulation in this species occurs below, rather than above the rachis node; thus, the product of appears to be required for disarticulation to occur above the rachis node.

Comparative Analysis of Root Transcriptome Reveals Candidate Genes and Expression Divergence of Homoeologous Genes in Response to Water Stress in Wheat.

Crop cultivars with larger root systems have an increased ability to absorb water and nutrients under conditions of water deficit. To unravel the molecular mechanism of water-stress tolerance in wheat, we performed RNA-seq analysis on the two genotypes, Colotana 296-52 (Colotana) and Tincurrin, contrasting the root growth under polyethylene-glycol-induced water-stress treatment. Out of a total of 35,047 differentially expressed genes, 3692 were specifically upregulated in drought-tolerant Colotana under water stress.

Combined QTL mapping and RNA-Seq profiling reveals candidate genes associated with cadmium tolerance in barley.

The high toxicity of cadmium (Cd) and its ready uptake by plants has become a major agricultural problem. To investigate the genetic architecture and genetic regulation of Cd tolerance in barley, we conducted quantitative trait loci (QTL) analysis in the phenotypically polymorphic Oregon Wolfe Barley (OWB) mapping population, derived from a cross between Rec and Dom parental genotypes. Through evaluating the Cd tolerance of 87 available doubled haploid lines of the OWB mapping population at the seedling stage, one minor and one major QTL were detected on chromosomes 2H and 6H, respectively.

The Photoperiod-Insensitive Allele Promotes Earlier Flowering in Dwarf Plants of Bread Wheat.

The gibberellin-responsive dwarfing gene can significantly reduce plant height without changing seedling vigor and substantially increase ear fertility in bread wheat ( L). However, delays heading date and anthesis date, hindering the use of in wheat improvement. To promote early flowering of the dwarf plants, the photoperiod-insensitive allele was introduced through a cross between Jinmai47 () and Karcagi ().

The β-Ketoacyl-CoA Synthase HvKCS1, Encoded by Cer-zh, Plays a Key Role in Synthesis of Barley Leaf Wax and Germination of Barley Powdery Mildew.

The cuticle coats the primary aerial surfaces of land plants. It consists of cutin and waxes, which provide protection against desiccation, pathogens and herbivores. Acyl cuticular waxes are synthesized via elongase complexes that extend fatty acyl precursors up to 38 carbons for downstream modification pathways.

A GDSL-motif esterase/acyltransferase/lipase is responsible for leaf water retention in barley.

The hydrophobic cuticle covers the surface of the most aerial organs of land plants. The barley mutant (), which is hypersensitive to drought, is unable to accumulate a sufficient quantity of cutin in its leaf cuticle. The mutated locus has been mapped to a 0.

Overproduction of stromal ferredoxin:NADPH oxidoreductase in H2O 2-accumulating Brassica napus leaf protoplasts.

The isolation of Brassica napus leaf protoplasts induces reactive oxygen species generation and accumulation in the chloroplasts. An activated isoform of NADPH oxidase-like protein was detected in the protoplasts and the protoplast chloroplasts. The purpose of this study is to define the NADH oxidase-like activities in the H2O2-accumulating protoplast chloroplasts.

Changes in genome-wide gene expression during allopolyploidization and genome stabilization in hexaploid wheat.

Allopolyploidization is an important evolutionary event in plants, but its genome-wide effects are not fully understood. Common wheat, Triticum aestivum (AABBDD), evolved through amphidiploidization between T. turgidum (AABB) and Aegilops tauschii (DD).

Identification of differential gene expression for Kr1 gene in bread wheat using annealing control primer system.

Intergeneric hybridization is an important strategy to introgress alien genes into common wheat for its improvement. But presence of cross ability barrier mechanism regulated by Kr1 gene played a major destructive role for hybridization than other reported genes. In order to know the underlying molecular mechanism and to dissect out this barrier, a new annealing system, ACP (anneling control primer) system was used in chromosome 5B (containing Kr1 gene) specific Recombinant Inbred Line (RIL) population.

An efficient method for purifying high quality RNA from wheat pistils.

Many methods are available for total RNA extraction from plants, except the floral organs like wheat pistils containing high levels of polysaccharides that bind/or co-precipitate with RNA. In this protocol, a simple and effective method for extracting total RNA from small and feathery wheat pistils has been developed. Lithium chloride (LiCl) and phenol:chloroform:isoamylalcohol (PCI) were employed and the samples were ground in microcentrifuge tube using plastic pestle.