TY  - BOOK
AU  - Alaa Youssef Salah Youssef,  
AU  - Mohamed Salah EL Soda 
AU  - Neama Hussein Osman
AU  - Atef Abdel Fatah Mohamed Shahin
TI  - Genetic studies on wheat tolerance to yellow rust
U1  - 633.11 
PY  - 2025///
KW  - Disease âªWheat  âª
KW  - Ø£ÙØ±Ø§Ø¶ Ø§ÙÙÙØ­
KW  - Wheat
KW  - Stripe rust
KW  - GWAS
KW  - Marker trait associations
KW  - Ø§ÙÙÙØ­
KW  - Ø§ÙØµØ¯Ø£ Ø§ÙÙØ®Ø·Ø·
N1  - Thesis (M.Sc)-Cairo University, 2025; Bibliography: pages 114-138; Issues also as CD
N2  - This study was conducted from 2019 to 2020 at Merchouch (Morocco) 
and Izmir (Turkey), and from 2022 to 2023 at Sakha and Sids (Egypt), to 
investigate the genetic variability of stripe rust resistance in spring bread 
wheat. Stripe rust, caused by Puccinia striiformis f. sp. tritici, is a major biotic 
stress affecting wheat (Triticum aestivum) production worldwide. Identifying 
resistant wheat genotypes and their associated genomic regions is crucial for 
breeding programs aimed at improving stripe rust resistance. In this study, a 
panel of 154 spring bread wheat genotypes from the International Center for 
Agricultural Research in the Dry Areas (ICARDA) was evaluated across the 
four locations. Disease severity was assessed under natural field infection at 
the adult plant stage using the coefficient of infection (CI) as a quantitative 
measure of resistance. Genomic DNA was genotyped using 17,692 high-
quality single-nucleotide polymorphism (SNP) markers, and genome-wide 
association studies (GWAS) were performed to identify significant markerâ
trait associations (MTAs) related to stripe rust tolerance. The mixed linear 
model (MLM), accounting for population structure and relatedness, was 
applied to each environment. A total of 136 significant MTAs were identified 
(âlog10 (p) > 3.0), with the strongest associations located on chromosomes 
2A, 3B, 4A, 5B, and 7A. Several MTAs were found near known resistance 
genes, including Yr18 and Yr57, while others appeared to represent novel loci. 
These findings highlight the polygenic nature of stripe rust tolerance in wheat 
and the influence of environmental variation on tolerance expression. The 
results provide valuable insights into the genetic architecture of tolerance and 
offer potential targets for marker-assisted breeding.; Ø£ÙØ¬Ø±ÙØª ÙØ°Ù Ø§ÙØ¯Ø±Ø§Ø³Ø© Ø®ÙØ§Ù Ø¹Ø§ÙÙ 2019â2020 ÙÙ ÙØ±Ø´ÙØ´ (Ø§ÙÙØºØ±Ø¨) ÙØ¥Ø²ÙÙØ± (ØªØ±ÙÙØ§)Ø ÙØ®ÙØ§Ù Ø¹Ø§ÙÙ 2022â2023 ÙÙ Ø³Ø®Ø§ ÙØ³Ø¯Ø³ (ÙØµØ±)Ø Ø¨ÙØ¯Ù Ø¯Ø±Ø§Ø³Ø© Ø§ÙØªØ¨Ø§ÙÙ Ø§ÙÙØ±Ø§Ø«Ù ÙÙÙØ§ÙÙØ© ØµØ¯Ø£ Ø§ÙØ£ÙØ±Ø§Ù Ø§ÙÙØ®Ø·Ø·Ø© ÙÙ ÙÙØ­ Ø§ÙØ®Ø¨Ø² Ø§ÙØ±Ø¨ÙØ¹Ù. ÙÙØ¹Ø¯ ØµØ¯Ø£ Ø§ÙØ£ÙØ±Ø§Ù Ø§ÙÙØ®Ø·Ø·Ø©Ø Ø§ÙÙØªØ³Ø¨ÙÙØ¨ Ø¹Ù ÙØ·Ø± Puccinia striiformis f. sp. triticiØ ÙÙ Ø£ÙÙ Ø¹ÙØ§ÙÙ Ø§ÙØ¥Ø¬ÙØ§Ø¯ Ø§ÙØ­ÙÙÙ Ø§ÙØªÙ ØªØ¤Ø«Ø± ÙÙ Ø¥ÙØªØ§Ø¬ÙØ© Ø§ÙÙÙØ­ (Triticum aestivum) Ø¹Ø§ÙÙÙØ§Ù. ÙÙØ°ÙÙ ÙÙØ¹Ø¯ ØªØ­Ø¯ÙØ¯ Ø§ÙØ·Ø±Ø² Ø§ÙÙØ±Ø§Ø«ÙØ© Ø§ÙÙÙØ§ÙÙØ© ÙÙÙØ§Ø·Ù Ø§ÙØ¬ÙÙÙÙ Ø§ÙÙØ±ØªØ¨Ø·Ø© Ø¨ÙØ§ Ø£ÙØ±Ø§Ù Ø¨Ø§ÙØº Ø§ÙØ£ÙÙÙØ© ÙØ¨Ø±Ø§ÙØ¬ Ø§ÙØªØ±Ø¨ÙØ© Ø§ÙÙØ§Ø¯ÙØ© Ø¥ÙÙ ØªØ­Ø³ÙÙ ÙÙØ§ÙÙØ© Ø§ÙÙÙØ­ ÙÙØ°Ø§ Ø§ÙÙØ³Ø¨Ø¨ Ø§ÙÙØ±Ø¶Ù.ÙÙ ÙØ°Ù Ø§ÙØ¯Ø±Ø§Ø³Ø©Ø Ø¬Ø±Ù ØªÙÙÙÙ ÙØ¬ÙÙØ¹Ø© ÙÙÙÙØ© ÙÙ 154 Ø·Ø±Ø§Ø²Ø§Ù ÙØ±Ø§Ø«ÙØ§Ù ÙÙ ÙÙØ­ Ø§ÙØ®Ø¨Ø² Ø§ÙØ±Ø¨ÙØ¹Ù Ø§ÙØªØ§Ø¨Ø¹Ø© ÙÙÙØ±ÙØ² Ø§ÙØ¯ÙÙÙ ÙÙØ¨Ø­ÙØ« Ø§ÙØ²Ø±Ø§Ø¹ÙØ© ÙÙ Ø§ÙÙÙØ§Ø·Ù Ø§ÙØ¬Ø§ÙØ© (Ø¥ÙÙØ§Ø±Ø¯Ø§) Ø¹Ø¨Ø± Ø§ÙÙÙØ§ÙØ¹ Ø§ÙØ£Ø±Ø¨Ø¹Ø©
ER  -