MYBPC3 truncating variants in HCM cohorts

MYBPC3 gene summary
Overview of MYBPC3 in HCM

The table below lists the 268 rare (MAF<0.0001 in ExAC) truncating MYBPC3 variants identified in a cohort of 2912 HCM patients. When this rare variant frequency of 0.09203 is compared with a background population rate of 0.00086, there is a statistically significant case excess of 0.09117 (p<0.0001), which suggests that approximately 265 of these variants may be pathogenic.


Variant Type:      All protein-altering variants     -     Truncating variants     -     Non-Truncating variants
Source:      Combined (OMGL + LMM)     -     OMGL     -     LMM



No. Variant (CDS) Variant (Protein) Variant Type Cases (2912)LMM class ExAC frequency
1. c.1000G>T p.E334Xnonsense 1Pathogenic0.000000
2. c.2747G>A p.W916Xnonsense 1Pathogenic0.000000
3. c.2965G>T p.E989Xnonsense 1Pathogenic0.000000
4. c.2048G>A p.W683Xnonsense 1Pathogenic0.000000
5. c.1273C>T p.Q425Xnonsense 1Pathogenic0.000000
6. c.3694A>T p.K1232Xnonsense 1Pathogenic0.000000
7. c.3408C>A p.Y1136Xnonsense 1Pathogenic0.000000
8. c.2182G>T p.E728Xnonsense 4Pathogenic0.000000
9. c.2541C>A p.Y847Xnonsense 1Pathogenic0.000000
10. c.2920C>T p.Q974Xnonsense 3Pathogenic0.000000
11. c.1693A>T p.K565Xnonsense 1Pathogenic0.000000
12. c.1156G>T p.E386Xnonsense 1Pathogenic0.000000
13. c.3233G>A p.W1078Xnonsense 3Pathogenic0.000022
14. c.1924C>T p.Q642Xnonsense 1Pathogenic0.000000
15. c.2827C>T p.R943Xnonsense 7Pathogenic0.000017
16. c.966G>A p.W322Xnonsense 1Pathogenic0.000000
17. c.3825A>G p.X1275TrpextX77nonsense 1Likely Pathogenic0.000000
18. c.2437A>T p.K813Xnonsense 1Pathogenic0.000000
19. c.3253G>T p.E1085Xnonsense 1Pathogenic0.000000
20. c.993_994insT p.E332Xnonsense 1Pathogenic0.000000
21. c.2905C>T p.Q969Xnonsense 3Pathogenic0.000000
22. c.1869C>A p.C623Xnonsense 2Pathogenic0.000000
23. c.932C>A p.S311Xnonsense 1Pathogenic0.000000
24. c.3181C>T p.Q1061Xnonsense 1Pathogenic0.000016
25. c.613C>T p.Q205Xnonsense 1Pathogenic0.000000
26. c.3332_3335dupAGTG p.W1112Xnonsense 1Pathogenic0.000000
27. c.2953A>T p.K985Xnonsense 1Pathogenic0.000000
28. c.1575T>G p.Y525Xnonsense 1Pathogenic0.000000
29. c.3697C>T p.Q1233Xnonsense 9Pathogenic0.000008
30. c.1210C>T p.Q404Xnonsense 2Pathogenic0.000000
31. c.3335G>A p.W1112Xnonsense 1Pathogenic0.000000
32. c.2454G>A p.W818Xnonsense 4Pathogenic0.000000
33. c.3753T>G p.Y1251Xnonsense 1Pathogenic0.000000
34. c.333_334insT p.E112Xnonsense 1Pathogenic0.000000
35. c.999C>G p.Y333Xnonsense 2Pathogenic0.000000
36. c.3286G>T p.E1096Xnonsense 1Pathogenic0.000000
37. c.3811C>T p.R1271Xnonsense 1Pathogenic0.000025
38. c.2670G>A p.W890Xnonsense 7Pathogenic0.000000
39. c.2737+1G>C essential splice site 1Pathogenic0.000000
40. c.1458-1G>A essential splice site 1Pathogenic0.000000
41. c.821+2T>C essential splice site 1Pathogenic0.000000
42. c.821+1G>A essential splice site 4Pathogenic0.000043
43. c.3330+2T>G essential splice site 11Pathogenic0.000000
44. c.821+1G>C essential splice site 1Pathogenic0.000000
45. c.1224-2A>G essential splice site 1Pathogenic0.000000
46. c.655-1G>A essential splice site 1Pathogenic0.000000
47. c.3331-1G>A essential splice site 1Pathogenic0.000000
48. c.1928-2A>G essential splice site 20Pathogenic0.000000
49. c.772+1G>A essential splice site 2Pathogenic0.000000
50. c.1351+2T>C essential splice site 1Pathogenic0.000000
51. c.3190+2T>G essential splice site 2Pathogenic0.000016
52. c.1897+1G>A essential splice site 2Pathogenic0.000000
53. c.3491-2A>T essential splice site 3Pathogenic0.000000
54. c.2308+1G>A essential splice site 1Pathogenic0.000000
55. c.1624+2T>C essential splice site 1Pathogenic0.000000
56. c.927-2A>G essential splice site 2Pathogenic0.000000
57. c.26-2A>G essential splice site 4Pathogenic0.000051
58. c.1090+1G>A essential splice site 1Pathogenic0.000000
59. c.2905+1G>C essential splice site 1Pathogenic0.000000
60. c.1351+1G>A essential splice site 1Pathogenic0.000000
61. c.2737+2T>A essential splice site 1Pathogenic0.000000
62. c.3627+1G>A essential splice site 2Pathogenic0.000000
63. c.2905+1G>A essential splice site 4Pathogenic0.000000
64. c.2309-2A>G essential splice site 9Pathogenic0.000000
65. c.506-1G>T essential splice site 1Pathogenic0.000000
66. c.2149-1G>A essential splice site 1Pathogenic0.000000
67. c.2906-2A>G essential splice site 1Pathogenic0.000000
68. c.3190+1G>A essential splice site 3Pathogenic0.000000
69. c.2308+1G>T essential splice site 1Pathogenic0.000000
70. c.3815-1G>A essential splice site 1Pathogenic0.000000
71. c.1090+1G>T essential splice site 1Pathogenic0.000000
72. c.1628delA frameshift 1Pathogenic0.000000
73. c.3600_3609delCTGCTGTGCT frameshift 0Pathogenic0.000000
74. c.833delG p.Gly278GlufsX22frameshift 1Pathogenic0.000000
75. c.2943_2947delGACCA frameshift 2Pathogenic0.000000
76. c.2394_2395insT p.Gly799TrpfsX34frameshift 1Pathogenic0.000000
77. c.1895delT p.Met632ArgfsX31frameshift 2Pathogenic0.000000
78. c.2604_2605delinsA p.S871fsframeshift 2Pathogenic0.000000
79. c.3476_3479dupTTAT p.Pro1161TyrfsX9frameshift 1Pathogenic0.000000
80. c.2163delC p.Glu722ArgfsX32frameshift 1Pathogenic0.000000
81. c.2833_2834delCG frameshift 1Pathogenic0.000000
82. c.2558delG frameshift 2Pathogenic0.000000
83. c.3735delC frameshift 1Likely Pathogenic0.000000
84. c.2490_2491insT p.His831SerfsTer2frameshift 1Pathogenic0.000024
85. c.177_187del p.Glu60AlafsX49frameshift 1Pathogenic0.000000
86. c.3068_3069insA p.Asn1023LysfsX28frameshift 1Pathogenic0.000000
87. c.459delC frameshift 1Pathogenic0.000000
88. c.2113_2114insA p.Thr705AsnfsX3frameshift 1Pathogenic0.000000
89. c.551_552insT p.Lys185GlufsX56frameshift 1Pathogenic0.000000
90. c.2013_2016delinsGG p.Pro672AspfsX20frameshift 1Pathogenic0.000000
91. c.3690_3691delCA p.Phe1230LeufsX11frameshift 1Pathogenic0.000000
92. c.2864_2865delCT frameshift 6Pathogenic0.000000
93. c.1168delC frameshift 1Pathogenic0.000000
94. c.3288delG frameshift 1Pathogenic0.000000
95. c.2096delC frameshift 4Pathogenic0.000000
96. c.913_914delTT frameshift 5Pathogenic0.000000
97. c.431_432delGT p.Gly144AlafsX8frameshift 1Pathogenic0.000000
98. c.3624delC frameshift 2Pathogenic0.000000
99. c.2875_2876delAC p.Thr959GlyfsX91frameshift 1Pathogenic0.000000
100. c.3040delC p.Leu1014TrpfsX6frameshift 1Pathogenic0.000000
101. c.2610_2611insC p.Ser871GlnfsX13frameshift 1Pathogenic0.000000
102. c.436_437insA p.Thr146AsnfsX7frameshift 2Pathogenic0.000000
103. c.1800delA frameshift 1Pathogenic0.000000
104. c.3476_3477delTT frameshift 1Pathogenic0.000000
105. c.2517_2538del p.Val840ThrfsX32frameshift 1Pathogenic0.000000
106. c.2780_2781delCA frameshift 1Pathogenic0.000000
107. c.2311_2312insG p.Val771GlyfsX62frameshift 3Pathogenic0.000000
108. c.1863delC p.Phe621LeufsX42frameshift 2Pathogenic0.000000
109. c.3192_3193insC p.Lys1065GlnfsX12frameshift 2Pathogenic0.000000
110. c.2556_2557delinsTCT p.Gly853fsframeshift 1Pathogenic0.000000
111. c.2040_2041insT p.Val681CysfsX12frameshift 1Pathogenic0.000000
112. c.533delT p.Val178GlyfsX7frameshift 1Pathogenic0.000000
113. c.2534_2538delGCGTC frameshift 1Pathogenic0.000000
114. c.2373_2374insG p.Trp792ValfsTer41frameshift 26Pathogenic0.000037
115. c.3776delA frameshift 1Pathogenic0.000000
116. c.1678delG p.Asp560ThrfsX19frameshift 1Pathogenic0.000000
117. c.3226_3227insT frameshift 6Pathogenic0.000000
118. c.1699_1700delGA p.Glu567GlyfsX4frameshift 1Pathogenic0.000000
119. c.1999_2000delinsG p.Leu667AspfsX15frameshift 1Pathogenic0.000000
120. c.2524_2525insT p.Tyr842LeufsX42frameshift 1Pathogenic0.000000
121. c.3624_3625insC p.Lys1209GlnfsX33frameshift 2Pathogenic0.000000
122. c.3166_3167insG p.Ala1056GlyfsX9frameshift 1Pathogenic0.000000
123. c.1038_1042dupCGGCA frameshift 1Pathogenic0.000008
124. c.1357_1358delCC frameshift 2Pathogenic0.000000
125. c.1892delT frameshift 1Pathogenic0.000000

References

1. Roddy Walsh, Kate L. Thomson, James S. Ware, Birgit H. Funke, Jessica Woodley, Karen J. McGuire, Francesco Mazzarotto, Edward Blair, Anneke Seller, Jenny C. Taylor, Eric V. Minikel, Exome Aggregation Consortium, Daniel G. MacArthur, Martin Farrall, Stuart A. Cook and Hugh Watkins. Reassessment of Mendelian gene pathogenicity using 7,855 cardiomyopathy cases and 60,706 reference samples. Genet Med. 2016 doi:10.1038/gim.2016.90.

2. Alfares AA, Kelly MA, McDermott G, Funke BH, Lebo MS, Baxter SB, Shen J, McLaughlin HM, Clark EH, Babb LJ, Cox SW, DePalma SR, Ho CY, Seidman JG, Seidman CE, Rehm HL. Results of clinical genetic testing of 2,912 probands with hypertrophic cardiomyopathy: expanded panels offer limited additional sensitivity. Genet Med. 2015 Nov;17(11):880-8.