An alternate location into the chromosome eight having SH was sensed from the evaluating the populace about screenhouse
To your people Kalarata/NSIC Rc238, all in all, five tall QTLs to the chromosomes step three, 5, 6, 7, and 8 was in fact imagined having En ce qui concerne significantly less than both assessment standards (Table dos). About three high QTLs was basically thought of having SH on chromosomes 1, 3, and seven, of which QTLs to the chromosomes step one and you can step three have been thought into the both examination requirements.
Brand new En ce qui concerne QTLs qSUR5–step one (named as qSUR5–step 1
The tolerant parent Kalarata contributed the SUR QTLs qSUR3–1Rc238-SCR-fourteen are hookup sites real, qSUR6–1Rc238-SCR-14, and qSUR7–1Rc238-SCR-fourteen while the QTLs qSUR5–1Rc238-SCR-14 and qSUR8–1 Rc238-SCR-14 came from susceptible parent NSIC Rc238 under screen house condition at 14 DAS (Table 2). Same five QTLs showed effect on survival at 14 DAS under tray-on-table condition and at 21 DAS in both screening conditions. The largest effect QTL qSUR7–1 (named as qSUR7–1Rc238-SCR-fourteen, qSUR7–1Rc238-TAB-fourteen, qSUR7–1Rc238-SCR-21 and qSUR7–1Rc238-TAB-21) showed a LOD score of to and explained % to % of the phenotypic variation, with an additive effect of % to %, followed by qSUR6–1 (named as qSUR6–1Rc238-SCR-14, qSUR6–1Rc238-TAB-fourteen, qSUR6–1Rc238-SCR-21 and qSUR6–1Rc238-SCR-21), which explained % to % of the phenotypic variation, detected by a LOD score of 5.97 to 6.96, and had an additive effect of 9.79% to%. qSUR3–1 (named as qSUR3–1Rc238-SCR-14, qSUR3–1Rc238-TAB-fourteen, qSUR3–1Rc238-SCR-21 and qSUR3–1Rc238-TAB-21) contributed % to % of the phenotypic variation, with an additive effect of % to %. Rc238-SCR-14, qSUR5–1Rc238-TAB-fourteen, qSUR5–1Rc238-SCR-21 and qSUR5–1Rc238-TAB-21) and qSUR8–1 (named as qSUR8–1Rc238-SCR-fourteen, qSUR8–1Rc238-TAB-14, qSUR8–1Rc238-SCR-21 and qSUR8–1Rc238-TAB-21) from high-yielding susceptible parent NSIC Rc238 contributed 9.76% to % and % to % of the phenotypic variation, with LOD scores of 4.10 to 4.57 and 4.78 to 5.21, respectively (Table 2, Additional file 1: Figure S2).
All SH QTLs were contributed by Kalarata, the parent with anaerobic germination potential. The largest effect QTL identified for SH is qSH1–1 (named as qSH1–1Rc238-SCR-21 and qSH1–1Rc238-TAB-21), which is consistent over both screening conditions. It explained a phenotypic variation of 12.5% to 22.1%, with a LOD score of 5.4 to 9.4. The second largest effect QTL detected for SH was consistent with SUR QTL qSH3–1 (named as qSH3–1Rc238-SCR-fourteen, qSH3–1Rc238-SCR-21 and qSH3–1Rc238-TAB-21,), which was also consistent in both screening conditions. This QTL explained phenotypic variation of 10.1% to14.4%, with a LOD score of 3.7 to 5.8 and an additive effect of 0.84% to 5.17%. QTL qSH7–1Rc238-SCR-21 was identified with a LOD score of 4.6 and explained 10.7% of the phenotypic variation and had an additive effect of 4.57%. It was identified only under screenhouse conditions and was located in a different position from the identified QTL (qSUR7–1) for SUR (Additional file 1: Table S2, Additional file 1: Figure S3A). Under controlled conditions, no QTL was detected for germination, whereas one QTL on chromosome 1 (qSH1-2Rc238-CON-21) was detected for SH with an LOD score of 6.1 that could explain 14.1% of the phenotypic variation (Additional file 1: Table S2). Altogether, the identified QTLs for SUR explained phenotypic variation in the range of % to % while that for the trait SH ranged from 10.1% to 36.5% for the Kalarata/NSIC Rc238 population.
On the populace Kalarata/NSIC Rc222, a total of three significant QTLs with the chromosomes step three, 6, and eight was basically thought to have Sur under each other examination standards, that have been including consistent with the earliest inhabitants (Desk step three). A few tall QTLs were imagined to own SH to the chromosomes step 1 and step three, of which the fresh QTL to the chromosome step one, thought significantly less than one another screening requirements, has also been common with the first population for similar characteristic. In most instances, parent Kalarata with anaerobic germination possible contributed this new open-minded alleles having AG (Additional document step 1: Table S3).