All BGRI Abstracts

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Molecular screening and identification the carriers of effective Yr genes in wheat germplasm of Central Asia

BGRI 2018 Poster Abstract
Alma Kokhmetova Institute of Plant Biology and Biotechnology
Makpal Atishova, Aygul Madenova, Kanat Galymbek, Jenis Keyshilov, Hafiz Muminjanov, Alexey Morgounov

Wheat rust diseases are a major cause of yield losses of this crop. Yellow (Puccinia striiformis f. sp. tritici) rust is of the most widespread and dangerous disease of wheat and is the major factor that adversely affects wheat yield and quality. The use of genetic host resistance is the most effective, economical and environmentally safe method of controlling stripe rust that allows elimination of fungicides and minimize crop losses from this disease. Due to the threat of the development of epiphytoties of rust disease it is necessary to identify new donors of resistance to yellow rust and to develop resistant wheat breeding material. In the present study, attention was drawn to the effective yellow rust resistance genes Yr5, Yr10 and Yr15, which were identified in the process of molecular screening of wheat germplasm. Genetic analysis using S23M41 molecular marker linked to Yr5 revealed the presence of this gene in 17 out of 136 promising lines. Thirteen genotypes screened with Xbarc8 generated the DNA fragment associated with Yr15. Three advanced lines with Yr10 were identified using the SCAR marker. Three lines carrying two Yr genes (Yr5 and Yr15) were detected. Combination of Yr5 and Yr10 were found in 15 wheat lines. We identified a number of wheat genotypes highly resistant to stripe rust, which could be further evaluated to release new resistant varieties or to be used in the breeding program.


Development of high yielding and disease resistant wheat cultivars by Cereal Crops Research Institute Pirsabak Nowshera after de

BGRI 2018 Poster Abstract
Gulzar Ahmad Cereal Crops Research Institute Pirsabak Nowshera, Pakistan
Khilwat Afridi, Muhammad Ishaq, Irfan Shah, Ibne Khalil, Masood Jan

The Cereal Crops Research Institute (CCRI) is situated on the left bank of River Kabul, near village Pirsabak, 3 km east of Nowshera at an elevation of 288 m above sea level on the intersection of 74? E longitude and 32? N latitude. In July 2010, a devastating flood destroyed all the available germplasm, machineries, laboratories, and field equipment. After the flood research activities were restarted with full motivation, dedication and hard work in collaboration with PARC, ICARDA, CIMMYT, and with the help of wheat productivity enhancement program (WPEP). Developed new population of wheat via spring x spring, spring x facultative germplasm to elevate genetic diversity and lines selected from segregating populations for high yield and rust resistance are at advanced stage of testing.

Since the flood, the CCRI developed four new wheat cultivars: Pirsabak-2013 Pakhtunkhwa-2015 for irrigated areas and Shahkar-2013 and Pirsabak-2015 for rainfed areas of Khyber Pakhtunkhwa, Pakistan. Varietal maintenance and seed production of the released varieties has been undertaken by the wheat breeding team effectively. The seed of these newly developed wheat cultivars was multiplied on fast track basis through pre-released seed multiplication and now these four varieties are the most popular cultivars of Khyber Pakhtunkhwa, Pakistan. Three new candidate wheat lines (PR-106, PR-110 and PR-112) have been submitted to provincial seed council for approval as new wheat cultivars for Khyber Pakhtunkhwa, Pakistan. Two new candidate lines i.e. PR-115 and PR-118 got first position in National Uniform Wheat Yield Trials (NUWYT) on the basis of grain yield during 2016-17 under irrigated and rainfed conditions, respectively.


Disease resistance of primary hexaploid synthetic wheat and its crosses with bread wheat

BGRI 2018 Poster Abstract
Gular Gadimaliyeva Genetic Resources Institute, Azerbaijan
N. Aminov, A. Jahangirov, H. Hamidov, Aigul Abugalieva, Vladmir Shamanin, Alexey Morgunov

Hexaploid synthetics have become widely used in bread wheat improvement in recent years, enabling the introduction of specific traits as well as enhancing genetic diversity and development of valuable germplasm. This study demonstrated the difference between two groups of primary synthetics in terms of development rate, plant height, rust reactions, and productivity components. During 2015 and 2016, three groups of synthetics were studied in Azerbaijan (3 sites): Baku (0 masl) under irrigated conditions, Gobustan (850 masl) under dry rainfed conditions and Ujar (20 masl) under irrigated conditions with high salinity. Germplasm was also evaluated for diseases and agronomic traits in Omsk (Russia) in 2016.
All primary synthetics were resistant to leaf rust, several to stem rust, and few to stripe rust. Stripe rust occurred in all years at all sites, proving its importance as major wheat pathogen. Its severity reached intermediate levels in Baku in 2016 (33.7%) and in Gobustan in 2015 (26.8%), and epidemic level in Gobustan in 2016 (72.7%). Gobustan also experienced high levels of stem rust in 2016. These two diseases substantially reduced grain productivity in Gobustan in 2016, especially 1000 kernel weight (30.2 g) and grain weight per spike (1.17 g). . Superior genotypes from all three groups were identified that combine high expression of spike productivity traits and stress tolerance index. Five superior synthetics were selected from each of the three groups, based on grain weight per spike. Only four of these demonstrated resistance to stripe rust (entries 13, 15, 31, and 32). Japanese synthetics (group 3) were susceptible to stripe rust but all demonstrated resistance to stem rust. Synthetics from groups 1 and 3 were all resistant to leaf rust when tested under severe disease pressure in Omsk in 2016.


Mining novel seedling stripe rust resistance from Vavilov's wheat landraces using conventional and modern genetic tools

BGRI 2018 Poster Abstract
Raghvendra Sharma QAAFI, The University of Queensland
Robert McIntosh, Peng Zhang, Sami Hoxha, Adnan Riaz, Burkhard Steuernagel, Brande Wulff, Evans Lagudah, Lee Hickey, Sambasivam Periyannan

Wheat is one of the most important staple food and agricultural crop cultivated worldwide. To meet the demands of the raising human population, global wheat production has to be increased which is however declined due to appearance of highly virulent strains of Puccinia striiformis f. sp. tritici (Pst) fungus causing stripe rust disease. Globally, the incidence of stripe rust is effectively managed through the deployment of host plant mediated genetic resistance. But as the resistance present in the current wheat cultivars are ineffective, new sources of resistance particularly from pathogen unexposed genetic resources are of urgent need to prevent stripe rust epidemics. Landrace collections with rich genetic diversity and being less exposed to prevalent pathogen are of valuable source for resistance to new pathogens. In this study, a total of 295 landrace accessions collected by the famous Russian botanist Vavilov was screened for stripe rust resistance using the two predominant lineage Pst strains of Australia. Six accessions with good resistance against the two aggressive Pst strains were selected for genetic characterization and for utilization in global wheat breeding. Characterisation of these novel resistance were undertaken using combination of conventional and advanced genetic tools. While the conventional approach involves the traditional map based gene cloning, the other tool is the recently identified rapid method based on mutagenesis, targeted gene capture and next generation sequencing called "MutRenSeq". Subsequently, the identified novel resistant traits were transferred into elite wheat cultivars through the combination of linked molecular markers and speed breeding techniques. Thus along with the identification of novel resistance, elite wheat cultivars with broad spectrum stripe rust resistance were also generated through the use state of art techniques to sustain global wheat production from the rapidly evolving stripe pathogens.


Population dynamics of wheat stem rust fungus in Indian subcontinent during 2009-2015

BGRI 2018 Poster Abstract
Subhash Bhardwaj ICAR-IIWBR, Regional Station, Flowerdale,Shimla 171002 H.P. India
Pramod Prasad, OmPrakash Gangwar, Hanif Khan, Siddanna Savadi, Subodh Kumar

Stem rust (Puccinia graminis tritici) (Pgt) epidemics have been reported from many wheat growing areas of the world. Stem rust races with virulence to Sr31 (Ug99 type races),are a threat to wheat producing African countries. Currently 11 different variants of the Ug99 lineage have been reported from different countries. Despite no report of Ug99 variants from any of the South Asian countries, the efforts are in place to counter the possible introduction of virulent wheat stem rust races. Stem rust surveillance has been a major component of the rust resistance breeding worldwide. This study reports virulence phenotypes and functional SSR marker based genotypes among stem rust collections in the Indian subcontinent during 2009 to 2015.
Wheat stem rust samples were analyzed on differential sets used for pathotype identification in India. Twelve pathotypes of Pgt were identified in a total of 574 samples analyzed. Pgt pathotypes 40A and 11 were identified in 36% and 32% of the samples, respectively. The stem rust resistance genes Sr7a, Sr26, Sr27, Sr31, Sr32, Sr33, Sr39, Sr40, Sr43, SrTmp and SrTt3 were found to confer resistance to the field population identified during this period. The analysis of SSR marker genotypes data revealed a high degree of variability in the Pgt population, with mean gene diversity and polymorphic information content (PIC) values of 0.56 and 0.50, respectively. STRUCTURE software divided the Pgt populations in to four subpopulations with some admixtures. The FST values of pairs of subpopulations ranged from 0.35 to 0.93 which indicated that the four sub-populations were significantly differentiated. The analysis of molecular variance (AMOVA) determined that 16%, 69% and 15% of the totl variation was between population, among and within individuals, respectively. The information generated here could be a useful guide for resistance breeding and gene deployment programmes for saving South Asian wheat from stem rust.


The complementary stripe rust resistance gene Yr73 appears to act in a complementary manner with an unidentified gene on chromos

BGRI 2018 Poster Abstract
Robert Park The University of Sydney
Davinder Singh, Peter Dracatos

Following the introduction of wheat stripe rust into Australia in 1979, an uncharacterized resistance (YrA) was identified in both Australian and International spring wheats. Genetic analyses of YrA indicated it was a pair of complementary genes, which were mapped to chromosomes 3DL and 5BL and designated Yr73 and Yr74, respectively. While selection Avocet 'R' carries both genes, selection Avocet 'S' carries Yr73 only. P. triticina pathotype (pt.) 104-1,2,3,(6),(7),11 +Lr37 ("104-VPM"), first detected in Australia in 2002, most likely arose via mutation from pt. 104-1,2,3,(6),(7),11 ("104"), with added virulence for Lr37. Interestingly, while both pathotypes are avirulent on Lr13, 104-VPM shows a much lower Infection Type (IT, ";1") than pt. 104 ("X++3") on several genotypes carrying Lr13 (e.g.Avocet 'R', Avocet 'S'). Other Lr13 genotypes (e.g. cv. Hereward) respond similarly to both pts ("X++3"). Genetic analyses of 4 doubled haploid (DH) populations based on intercrosses between Avocet 'R' and genotypes lacking Lr13 segregated in a 1:7 ratio to pt. 104-VPM (";1" : all other ITs). Two populations fixed for Lr13 (viz. Hereward/ Avocet 'R' and Estica/Avocet 'R') segregated 1:3 to pt. 104-VPM (";1" : all other ITs). This segregation pattern fitted a model where two complementary genes interact with Lr13 to generate the low (IT ";1") IT. Mapping of a Teal/Avocet 'R' DH population using 92 lines and 9,035 DArT-Seq markers identified three QTLs: chromosome 2BS (Lr13); chromosome 3DL (co-located with Yr73); chromosome 1DS. These results suggest that Yr73 acts in a complementary manner with a gene on chromosome 1DS to confer leaf rust resistance (IT "X"), and that these complementary genes are additive with Lr13. It appears that Yr73 is a modifier of two independent genes in wheat, one conferring resistance to stripe rust (Yr74 on chromosome 5BL), and one conferring resistance to leaf rust (LrAv on chromosome 1DS).


Genome-Wide Association Study (GWAS) of resistance to stem and stripe (yellow) rust in Iranian wheat cultivars and elite lines

BGRI 2018 Poster Abstract
Muhammad Massub Tehseen Department of Field Crops, Ege University, Izmir, Turkey
Kumarse Nazari, Mehran Patpour, Davinder Singh, Aladdin Hamwieh

Rust diseases in wheat are the major threat to wheat production and yield gains. The breakdown in resistance of certain major genes and new emerging aggressive races of rusts are causing serious concerns in all main wheat growing areas of the world. Therefore, it is the need of the hour to search for new sources of resistance genes or QTL's for effective utilization in future breeding programs. In total 100 wheat genotypes were evaluated for seedling and adult-plant resistance to stem rust races TKTTF and TTKSK at Tel Hadya-Syria, and Njoro-Kenya, and Kelardasht-Iran. Evaluation to Yr27 virulent stripe rust race was carried out at Tel Hadya and Terbol-Lebanon research stations. In this study we used genome wide association studies (GWAS) to identify markers or QTLs linked to stem rust and stripe rust races using Diversity Arrays Technology (DArT?) in selected 35 Iranian wheat genotypes. The association of markers and phenotypes was carried out using a unified mixed-model approach (MLM) as implemented in the genome association and prediction integrated tool (GAPIT). Out of 3,072 markers, 986 were polymorphic and used for marker trait associations. A total of 44 DArT markers were identified to be significantly (p<=0.01) associated with studied traits in 16 genomic regions 1A, 1B, 2A, 4A, 6A, 7A, 1B.1R, 2B, 3B, 4B, 5B, 5B.7B, 6B, 7D and an unknown region. Among associated markers, 34 were linked to stem and nine to stripe rust. They were found on 16 genomic regions on chromosome arms 1A, 1B, 2A, 4A, 6A, 7A, 1B.1R, 2B, 3B, 4B, 5B, 5B.7B, 6B, 7D and an unknown region. Associated markers explained phenotypic variation ranging from 21 to 65%. In addition to validation of previously identified genes, this study revealed new QTL's linked to stem and stripe rust which will assist breeders to develop new resistant varieties.


Genetic variation and differentiation in global populations of the wheat leaf rust fungus, Puccinia triticina.

BGRI 2018 Poster Abstract
James Kolmer USDA-ARS Cereal Disease Laboratory
Maria Ordonez, Silvia German, Kun Xiao, Amy Fox, Maricelis Acevedo

The leaf rust pathogen, Puccinia triticina is widespread across all major wheat growing regions worldwide. Collections of P. triticina were obtained from common and durum wheat in North America, South America, Europe, South Africa, the Middle East, East Africa, Russia, Central Asia, China, Pakistan and New Zealand in order to determine the genetic diversity within each region and genetic relationship between regions. A total of 831 single uredinial isolates were characterized for virulence to isogenic lines of Thatcher wheat and for molecular genotype at 23 SSR loci. The isolates in East Africa and Europe were the most diverse for the average number of effective alleles per locus, while the populations in Russia and North America were the least diverse. The isolates in Europe and South America had the highest number of multilocus genotypes of 81 and 75, respectively, and were the most diverse for Shannon's genotypic diversity. All populations had significantly higher levels of Ho compared to He at individual SSR loci, and had highly significant values of Ia and rd which indicated clonal reproduction. Europe had the highest number of distinct SSR genotype groups with eight, and Russia had only two SSR groups. The populations in North America and South America; Russia and Central Asia; the Middle East and East Africa; were closely related for SSR genotype based on Nei's genetic distance. Based on k means clustering and DAPC of SSR genotypes, isolates virulent to durum wheat were placed into a single separate group, and isolates virulent to common wheat were placed into five other groups. Twenty-seven SSR genotypes were found in different continental regions. Isolates with identical or highly related SSR genotypes also had identical or similar virulence, which indicated historical and current migration of P. triticina worldwide.


Incorporation of rust resistance (especially stem rust race Ug99) from rice to wheat through Wheat ? rice crossing

BGRI 2018 Poster Abstract
Javed Ahmad Wheat Research Institute, AARI, Faisalabad, Pakistan
Ghulam Mahboob Subhani, Makhdoom Hussain, Mehvish Makhdoom

Rust is the single largest factor limiting wheat production in Pakistan. According to the FAO reports, countries in the predicted immediate pathway of Ug99 grow more than 65 million hectares of wheat, accounting for about 25% of global wheat harvest.
Rice, a member of the same family (Poaceae) is not attacked by any rusts. Wheat, an allo-hexaploid is responsive for wide crossing. It has previously been successfully crossed with its several wild relatives and different other crop species like corn, pearl millet etc. Based on the above facts wheat ? wild rice crossing has been attempted to incorporate rust resistance from rice to wheat. Successful crosses were made under in-vitro conditions. Surviving plantlets developed from these crosses were assayed for any genetic material introgressed from rice. Different cytological / molecular techniques were used to detect the introgression (Squash preparations from root tips, FISH, GISH, SSR etc.). Two hundred and fifty primers specific to rice chromatin were used to look for the introgression of rice chromatin into hybrids. Seven primers amplified the fragments in hybrids indicating the possible introgression of rice chromatin in wheat x rice hybrids but in-situ hybridization didn't confirm that introgression. So further testing of these hybrids is needed.


Response of durum wheat genotypes to rust in preliminary and regular yield trials

BGRI 2018 Poster Abstract
Iqra Ghafoor Wheat Research Institute, Ayub Agricultural Rsearch Institute Faisalabad
Amna Kanwal, Mehwish Makhdoom, Javed Ahmed, Makhdoom Hussain

Wheat is the most important cereal crop in Pakistan because it contributes major portions of daily calorie intake. Rust is an increasing threat to wheat production and ultimately food security in Asian countries. The purpose of the present study is to identify the suitable wheat lines that could significantly resist rust pathogen without compromising yield. 60 durum wheat lines, entered in preliminary and regular yield trials, were tested for various morphological and physiological traits along with adult plant disease reaction under natural rust infestation. Results indicated that there was higher incidence of yellow rust as compared to leaf rust as ten genotypes were susceptible to leaf rust. Whereas seven lines were moderately susceptible, 14 were moderately resistant and two were completely susceptible to yellow rust. These findings suggested that future breeding program should be directed towards the developments of resistant cultivars that could resist variable strains of rust pathogen under changing climatic conditions.