Molecular diversity of Elymus trachycaulus complex species and their relationships to other Elymus species

Genomic DNAs from 10 disomic addition, substitution, or translocation chromosomes from tetraploid Elymus trachycaulus (SSHH) and 13 tetraploid Elymus ciliaris (SSYY) in Chinese Spring wheat were assayed with 18S–28S rDNA (Nor), 5S DNA, Adh, α-amylase, β-glucanase gene clones, and S-genome and H-genome repetitive DNA sequences. The rDNA from the S genome and 5S DNA from the S and H genomes, under high stringency Southern blot analysis, distinguished S-genome and H-genome loci on individual Elymus chromosomes. The single gene, or low copy gene probes (Adh and others), allowed identification of different addition lines and provided information on the gene synteny relationships of Elymus chromosomes with wheat chromosomes. The S-genome specific and H-genome repetitive DNA probes were not useful in assigning genomic affinities, due to some cross-hybridization between these genomes using these probes and (or) the occurrence of large numbers of translocations in polyploid genomes of Elymus species. However, the repetitive DNA probes provided diagnostic phenotypic markers for identification of individual Elymus addition lines. Moreover, since S- and H-genome DNA sequences were virtually absent from wheat, they were excellent markers for the detection of Elymus chromatin in wheat. The array of DNA probes should prove useful in chromosome manipulation in resistance transfer from Elymus into wheat.Key words: Triticeae, Elymus, aneuploid, DNA probe.

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Genomic affinities of individual chromosomes based on C- and N-banding analyses of tetraploid Elymus species and their diploid progenitor species

Genome ◽

10.1139/g87-043 ◽

1987 ◽

Vol 29 (2) ◽

pp. 247-252 ◽

Cited By ~ 21

Author(s):

K. L. D. Morris ◽

B. S. Gill

Keyword(s):

Diploid Progenitor ◽

Pseudoroegneria Spicata ◽

Banding Patterns ◽

Elymus Trachycaulus ◽

C And N ◽

Elymus Species ◽

Agropyron Trachycaulum ◽

Triticeae Genome ◽

Donor Species ◽

Genome Designation

Giemsa C- and N-banding techniques were used to identify individual somatic chromosomes in the tetraploid (2n = 28) species Elymus trachycaulus (= Agropyron trachycaulum) (genome designation SH) and E. ciliaris (= A. ciliare) (SY) and five diploid progenitor species (2n = 14), Pseudoroegneria spicata (= A. spicatum) (S), P. libanotica (= A. libanoticum) (S), P. stipifolia (= A. stipifolium) (S), Critesion bogdanii (= Hordeum bogdanii) (H), and C. californicum (= H. californicum) (H). Comparisons based on banding patterns of E. trachycaulus and E. ciliaris with parental donor species P. spicata indicated a common S genome origin. The heterochromatin composition of several E. trachycaulus chromosomes were similar to chromosomes of both Critesion species. However, the possible origin of characteristic C- and N-banded chromosomes of E. ciliaris remained undetermined. These patterns of evolution among genomes of E. trachycaulus, E. ciliaris, and their progenitor species proved valuable for the allocation of individual chromosomes into specific genomes. This approach may be useful for the genomic allocation of wheat-Elymus addition lines. Key words: C-banding, N-banding, Elymus, Triticeae, genome.

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Molecular diversity and relationships among Elymus trachycaulus, E. subsecundus, E. virescens, E. violaceus, and E. hyperarcticus (Poaceae: Triticeae) as determined by amplified fragment length polymorphism

Genome ◽

10.1139/g06-062 ◽

2006 ◽

Vol 49 (9) ◽

pp. 1160-1169 ◽

Cited By ~ 6

Author(s):

Genlou Sun ◽

Jennifer Shee ◽

Bjorn Salomon

Keyword(s):

Molecular Diversity ◽

Genetic Relationships ◽

Morphological Characters ◽

Mean Value ◽

Aflp Analysis ◽

Neighbor Joining ◽

Elymus Trachycaulus ◽

The Mean ◽

High Degree ◽

Mean Similarity

Morphological similarity among E. trachycaulus, E. virescens, E. violaceus, and E. hyperarcticus has often been noted. Taxonomists have tried to discriminate among these taxa using morphological characters and a number of different relationships among them have been suggested. However, the genetic relationships among these taxa are still unknown. AFLP analysis was used to characterize the molecular diversity of these taxa and to examine genetic relationships among them. A high degree of genetic identity was apparent among 7 accessions of E. virescens. The similarity values ranged from 0.90 to 0.99 with an average of 0.94. The mean similarity values among 3 E. hyperarcticus and among 5 E. violaceus accessions were 0.84 (0.81–0.87) and 0.77 (0.66–0.90), respectively. The similarity values among 17 E. trachycaulus accessions ranged from 0.49 to 0.92 with an average of 0.75. The 5 accessions of E. subsecundus displayed high variation, with similarity values between 0.52 and 0.68 and a mean value of 0.59. Both maximum-parsimony (MP) and neighbor-joining (NJ) analyses showed that all 7 accessions of E. virescens formed a clade, indicating a monophyletic origin. On the other hand, Elymus trachycaulus, E. subsecundus, and E. violaceus were each paraphyletic and separated into different genetically distinct groups. Among these 5 taxa, E. virescens was genetically similar to E. trachycaulus, and E. violaceus was genetically similar to E. hyperarcticus.

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Photochemical Evolution of Interstellar/Precometary Organic Material

International Astronomical Union Colloquium ◽

10.1017/s0252921100014585 ◽

1997 ◽

Vol 161 ◽

pp. 23-47 ◽

Cited By ~ 11

Author(s):

Louis J. Allamandola ◽

Max P. Bernstein ◽

Scott A. Sandford

Keyword(s):

Origin Of Life ◽

Building Blocks ◽

Complex Species ◽

Infrared Observations ◽

Interstellar Ice ◽

Polycyclic Aromatic ◽

Ultraviolet Photolysis ◽

The Origin Of Life ◽

Simple Molecules ◽

Complex Organic

AbstractInfrared observations, combined with realistic laboratory simulations, have revolutionized our understanding of interstellar ice and dust, the building blocks of comets. Since comets are thought to be a major source of the volatiles on the primative earth, their organic inventory is of central importance to questions concerning the origin of life. Ices in molecular clouds contain the very simple molecules H2O, CH3OH, CO, CO2, CH4, H2, and probably some NH3and H2CO, as well as more complex species including nitriles, ketones, and esters. The evidence for these, as well as carbonrich materials such as polycyclic aromatic hydrocarbons (PAHs), microdiamonds, and amorphous carbon is briefly reviewed. This is followed by a detailed summary of interstellar/precometary ice photochemical evolution based on laboratory studies of realistic polar ice analogs. Ultraviolet photolysis of these ices produces H2, H2CO, CO2, CO, CH4, HCO, and the moderately complex organic molecules: CH3CH2OH (ethanol), HC(= O)NH2(formamide), CH3C(= O)NH2(acetamide), R-CN (nitriles), and hexamethylenetetramine (HMT, C6H12N4), as well as more complex species including polyoxymethylene and related species (POMs), amides, and ketones. The ready formation of these organic species from simple starting mixtures, the ice chemistry that ensues when these ices are mildly warmed, plus the observation that the more complex refractory photoproducts show lipid-like behavior and readily self organize into droplets upon exposure to liquid water suggest that comets may have played an important role in the origin of life.

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PsycARTICLES Now Includes the Full-Text of More Than 100 Scholarly and Professional Journals

PsycEXTRA Dataset ◽

10.1037/e515112014-001 ◽

2014 ◽

Keyword(s):

Full Text ◽

Professional Journals

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Full-text Online Access

Archives of Facial Plastic Surgery ◽

10.1001/archfaci.10.6.400 ◽

2008 ◽

Vol 10 (6) ◽

pp. 400-400

Keyword(s):

Full Text ◽

Online Access

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The Bible in the spiritual culture of Kievan Rus

Ukrainian Religious Studies ◽

10.32420/1998.7.139 ◽

1998 ◽

pp. 46-52

Author(s):

S. V. Rabotkina

Keyword(s):

Full Text ◽

Spiritual Life ◽

The Bible ◽

Spiritual Culture ◽

Slavonic Language ◽

Long Time ◽

The Church

A huge place in the spiritual life of medieval Rusich was occupied by the Bible, although for a long time Kievan Rus did not know it fully. The full text of the Holy Scriptures appears in the Church Slavonic language not earlier than 1499.

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