Mapping QTL for spike fertility and related traits in two doubled haploid wheat (Triticum aestivum L.) populations

Pretini, Nicole; Vanzetti, Leonardo S.; Terrile, Ignacio I.; Donaire, Guillermo; González, Fernanda G.

doi:10.1186/s12870-021-03061-y

Table 1 Significant QTL detected in different studies that sheared interval positions according to the reference genome

From: Mapping QTL for spike fertility and related traits in two doubled haploid wheat (Triticum aestivum L.) populations

Trait^a	Chr.^b	Position (Mb)^c	Bibliography
GN	1B	16.2–55.4	Zhai et al. 2017 [42]; Li et al. 2018 [26]
	3A	705.3–749.1	Gao et al. 2015 [43]; Guan et al. 2018 [28]; Pang et al. 2020 [44]
	3B	584.6–649.5	Guo et al. 2018 [35]; Pang et al. 2020 [44]
	4A	603.3–685.0	Börner et al. 2002 [29]; Gao et al. 2015 [44]; Chen et al. 2017 [33]; Guan et al. 2018 [28]; Pang et al. 2020 [44]
	4B	16.8–98.7	Li et al. 2015 [23]; Li et al. 2018 [26]; Pang et al. 2020 [44]
	7A.1	81.1–167.3	Zhai et al. 2017 [43]; Li et al.2018 [26]
	7A.2	670.2–719.6	Li et al. 2015 [23]; Guo et al. 2017 [45]; Li et al. 2018 [26]; Guan et al. 2018 [28];
	7B	716.6–740.0	Li et al. 2018 [26]; Liu et al. 2018 [46]
GW	1B	566.0–679.4	Guan et al. 2018 [28]; Sukumaran et al. 2018 [47]; Gerard et al. 2019 [48]; Pang et al. 2020 [44]
	2A.1	7.5–28.3	Wang et al. 2009 [49]; Gerard et al. 2019 [48]
	2A.2	639.1–751.0	Guan et al. 2018 [28]; Ma et al. 2018 [27]; Sukumaran et al. 2018 [47]
	2D	296.4–382.2	Cuthbert et al. 2008 [50]; Wu et al. 2012 [30]; Yu et al. 2018 [51]
	3A.1	29.6–58.5	Li et al. 2018 [26]; Sukumaran et al. 2018 [47]
	3A.2	344.4–430.1	Xu et al. 2014 [31]; Wang et al. 2009 [49]
	3A.3	732.4–761.5	Cuthbert et al. 2008 [50]; Zhai et al. 2017 [42]
	4A	607.9–685.0	Ding et al. 2011 [39]; Tang et al. 2011 [52]; Gao et al. 2015 [43]; Guan et al. 2018 [28]
	4B.2	17.0–46.6	Li et al. 2018 [26]; Pang et al. 2020 [44]
	4B.1	236.7	Chen et al. 2017 [33]; Wang et al. 2011 [40]
	4D	12.8–62.5	Chen et al. 2017 [33]; Guan et al. 2018 [28]; Li et al. 2018 [26]
	5A.1	462.9–495.9	Cuthbert et al. 2008 [50]; Li et al. 2018 [26]; Sukumaran et al. 2018 [47]
	5A.2	524.2–619.0	Wang et al. 2017 [24]; Li et al. 2018 [26]; Sukumaran et al. 2018 [47]
	5A.3	656.0–682.7	Kato et al. 2000 [53]; Börner et al. 2002 [29]; Chen et al. 2017 [33]
	5B.1	27.2–47.6	Zhai et al. 2017 [43]; Pang et al. 2020 [44]
	5B.2	411.8–418.8	Zhai et al. 2016 [32]; Deng et al. 2017 [34]
	6A.1	38.4–80.0	Zhai et al. 2017 [43]; Guan et al. 2018 [28]
	6A.2	442.4–465.9	Zhai et al. 2017 [43]; Li et al. 2018 [26]
	6B	20.8–67.9	Tang et al. 2011 [52]; Li et al. 2018 [26]
	7A.1	85.7–116.0	Cuthbert et al. 2008 [50]; Tang et al. 2011 [52]
	7A.2	664.3–719.6	Li et al. 2015 [23]; Wang et al. 2017 [24]; Daba et al. 2018 [25]; Li et al. 2018 [26]; Ma et al. 2018 [27]; Guan et al. 2018 [28]
	7B	683.5–734.3	Gao et al. 2015 [43]; Li et al. 2018 [26]; Ma et al. 2018 [27]
TS	1A	398.6–399.5	Chen et al. 2017 [33]; Zhou et al. 2017 [54]
	2A	14.3–37.2	Ding et al. 2011 [39]; Gerard et al. 2019 [48]
	2D.1	19.6–38.3	Ma et al. 2014 [55]; Ma et al. 2018 [27]; Gerard et al. 2019 [48]
	2D.2	398.6–416.8	Zhou et al. 2017 [54]; Gerard et al. 2019 [48]
	2D.3	628.9–794.9	Zhou et al. 2017 [54]; Gerard et al. 2019 [48]
	4A	535.4–630.9	Jantasuriyarat et al. 2004 [38]; Chen et al. 2017 [33]; Ma et al. 2018 [27]
	5A	671.4–698.2	Ding et al. 2011 [39]; Wang et al. 2011 [40]; Cui et al. 2012 [41]; Wu et al. 2012 [30]
	7A	626.1–692.3	Jantasuriyarat et al. 2004 [38]; Ding et al. 2011 [39]; Xu et al. 2014 [31]; Zhai et al. 2016 [32]; Ma et al. 2018 [27]; Fan et al. 2019 [36]
	7B	622.3–718.9	Ma et al. 2018 [27]; Fan et al. 2019 [36]; Pang et al. 2020 [44]
	7D	127.3–263.0	Ma et al. 2007 [56] Yao et al. 2019 [18]
SL	1B	302.0–406.3	Börner et al. 2002 [29]; Jantasuriyarat et al. 2004 [38]
	2B	7.9–31.6	Cui et al. 2012 [41]; Zhai et al. 2016 [32]
	2D	17.6–99.4	Wu et al. 2012 [30]; Xu et al. 2014 [31]; Zhai et al. 2016 [32]; Chen et al. 2017 [33]; Deng et al. 2017 [34]; Li et al. 2018 [26]; Ma et al. 2019 [37]
	3B.1	25.4–52.8	Cui et al. 2012 [41]; Li et al. 2018 [26]; Pang et al. 2020 [44]
	3B.2	577.8–649.5	Guo et al. 2018 [35]; Pang et al. 2020 [44]
	4A.1	499.4–575.0	Guo et al. 2018 [35]; Li et al. 2018 [26]
	4A.2	603.3–688.1	Börner et al. 2002 [29]; Wang et al. 2011 [40]; Gao et al. 2015 [43]; Chen et al. 2017 [33]
	4B	36.7–54.7	Li et al. 2018 [26]; Pang et al. 2020 [44]
	5A	470.0–541.3	Börner et al. 2002 [29]; Zhai et al. 2016 [32]; Guo et al. 2018 [35]; Li et al. 2018 [26]; Fan et al. 2019 [36]
	6B	667.8–705.4	Deng et al. 2017 [34]; Li et al. 2018 [26]
	7D	127.3–137.3	Ma et al. 2007 [56]; Yao et al. 2019 [18]
CN	2D	14.4–23	Xu et al. 2014 [31]; Zhai et al. 2016 [32]
	3B	25.4–32.8	Cui et al. 2012 [41]; Pang et al. 2020 [44]
	5A	478.6–541.2	Zhai et al. 2016 [32]; Fan et al. 2019 [36]
	5B	261.8–406.9	Xu et al. 2014 [31]; Pang et al. 2020 [44]
FS	1A	243.4–497.5	Zhou et al. 2017 [54]; Ma et al. 2018 [27]
	1B	16.2–222.6	Zhai et al. 2016 [32]; Deng et al. 2017 [34]
	2A	16.6–56.8	Gerard et al. 2019 [48]; Ma et al. 2018 [27]
	2B	9.0–182.4	Deng et al. 2017 [34]; Ma et al. 2018[27]
	2D	19.6–88.6	Ma et al. 2018 [27]; Gerard et al. 2020 [48]
	7A	632.6–675.3	Ma et al. 2018 [27]; Fan et al. 2019 [36]

^aGN grain number per spike, GW grain weight, TS total spikelets per spike, SL spike length, CN compactness of the spike, FS fertile spikelets per spike
^b Chromosome
^c QTL overlapped in a 50 Mb region according to the Chinese Spring RefSeq v1.0 sequence were considered as the same

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