Skip to main content

Advertisement

Table 6 SSR-qPCR results for 23 known strains and 25 unknown triploid offspring strains

From: Molecular karyotypes of loquat (Eriobotrya japonica) aneuploids can be detected by using SSR markers combined with quantitative PCR irrespective of heterozygosity

Strain namePedigreePloidySSR-qPCR resultLG of abnormal chromosome
‘Dawuxing’NK2n = 2x = 34EuploidyNA
A313Selected from ‘Dawuxing’ (2x)2n = 3x = 51EuploidyNA
A322Selected from ‘Dawuxing’ (2x)2n = 3x = 51EuploidyNA
‘Longquan No. 1’NK2n = 2x = 34EuploidyNA
B350Selected from ‘Longquan No. 1’ (2x)2n = 3x = 51EuploidyNA
B352Selected from ‘Longquan No. 1’ (2x)2n = 3x = 51EuploidyNA
B353Selected from ‘Longquan No. 1’ (2x)2n = 3x = 51EuploidyNA
B356Selected from ‘Longquan No. 1’ (2x)2n = 3x = 51EuploidyNA
B431Selected from ‘Longquan No. 1’ (2x)2n = 4x = 68EuploidyNA
B456Selected from ‘Longquan No. 1’ (2x)2n = 4x = 68EuploidyNA
B460Selected from ‘Longquan No. 1’ (2x)2n = 4x = 68EuploidyNA
B432Selected from ‘Longquan No. 1’ (2x)2n = 4x = 68EuploidyNA
‘Ruantiaobaisha’NK2n = 2x = 34EuploidyNA
‘Wuheguoyu’Selected from ‘Ruantiaobaisha’ (2x)2n = 3x = 51EuploidyNA
H424Selected from ‘Ruantiaobaisha’ (2x)2n = 4x = 68EuploidyNA
H39Selected from ‘Wuheguoyu’ (3x)2n = 2x + 5 = 392n = 2x + 5 = 39LG3, LG8, LG10, LG16, LG17
77-1NK2n = 2x = 34EuploidyNA
K474Selected from 77-1 (2x)2n = 4x = 68EuploidyNA
‘Ninghaibai’NK2n = 2x = 34EuploidyNA
‘Huabai No. 1’Selected from ‘Ruantiaobaisha’ (2x)2n = 2x = 34EuploidyNA
‘Changbai No. 1’NK2n = 2x = 34EuploidyNA
Q24Selected from ‘Changbai No. 1’ (2x)2n = 3x = 51EuploidyNA
‘Huayuwuhe No. 1’Selected from ‘Changbai No. 1’ (2x)2n = 3x = 51EuploidyNA
Q24-1Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 1 = 352n = 2x + 1 = 35LG16
Q24-2Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 2 = 362n = 2x + 2 = 36LG1, LG17
Q24-3Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 2 = 362n = 2x + 2 = 36LG1, LG7
Q24-4Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 3 = 372n = 2x + 3 = 37LG2, LG9, LG15
Q24-5Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 4 = 382n = 2x + 4 = 38LG2, LG6, LG8, LG10
Q24-6Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 4 = 38Failed to detectFailed to detect
Q24-7Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 6 = 402n = 2x + 6 = 40LG10, LG12, LG13, LG14, LG15, LG16
Q24-8Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 8 = 422n = 2x + 8 = 42LG2, LG3, LG5, LG7, LG9, LG10, LG13, LG14
Q24-9Q24 (3x)בHuabai No. 1’ (2x)2n = 2x + 9 = 432n = 2x + 9 = 43LG1, LG4, LG7, LG10, LG11, LG12, LG13, LG14, LG17
A313-1Selected from A313 (3x)2n = 2x + 2 = 36Failed to detectFailed to detect
A313-2Selected from A313 (3x)2n = 2x + 3 = 372n = 2x + 3 = 37LG1, LG7, LG14
A313-3Selected from A313 (3x)2n = 2x + 3 = 37Failed to detectFailed to detect
A313-4Selected from A313 (3x)2n = 2x + 4 = 38Failed to detectFailed to detect
A313-5Selected from A313 (3x)2n = 2x + 5 = 392n = 2x + 5 = 39LG1, LG7, LG9, LG10, LG12
A313-6Selected from A313 (3x)2n = 2x + 6 = 402n = 2x + 6 = 40LG1, LG4, LG7, LG11, LG12, LG14
A313-7Selected from A313 (3x)2n = 2x + 7 = 41Failed to detectFailed to detect
A322-1Selected from A322 (3x)2n = 4x = 68EuploidyNA
A322-2Selected from A322 (3x)2n = 4x = 68Failed to detectFailed to detect
A322-3Selected from A322 (3x)2n = 4x = 68EuploidyNA
A322-4Selected from A322 (3x)2n = 4x + 1 = 692n = 4x + 1 = 69LG12
A322-5Selected from A322 (3x)2n = 4x + 1 = 69Failed to detectFailed to detect
A322-6Selected from A322 (3x)2n = 4x + 2 = 702n = 4x + 2 = 70LG4, LG8
A322-7Selected from A322 (3x)2n = 4x + 2 = 702n = 4x + 2 = 70LG8, LG9
A322-8Selected from A322 (3x)2n = 4x + 5 = 732n = 4x + 5 = 73LG1, LG5, LG7, LG13, LG14
A322-9Selected from A322 (3x)2n = 4x + 6 = 742n = 4x + 6 = 74LG1, LG3, LG5, LG12, LG14, LG17
  1. NK not known, NA no abnormality