TY - JOUR
T1 - A next-generation marker genotyping platform (AmpSeq) in heterozygous crops
T2 - A case study for marker-assisted selection in grapevine
AU - Yang, Shanshan
AU - Fresnedo-Ramírez, Jonathan
AU - Wang, Minghui
AU - Cote, Linda
AU - Schweitzer, Peter
AU - Barba, Paola
AU - Takacs, Elizabeth M.
AU - Clark, Matthew
AU - Luby, James
AU - Manns, David C.
AU - Sacks, Gavin
AU - Mansfield, Anna Katharine
AU - Londo, Jason
AU - Fennell, Anne
AU - Gadoury, David
AU - Reisch, Bruce
AU - Cadle-Davidson, Lance
AU - Sun, Qi
N1 - Publisher Copyright:
© 2014 Nanjing Agricultural University All rights reserved.
PY - 2016
Y1 - 2016
N2 - Marker-assisted selection (MAS) is often employed in crop breeding programs to accelerate and enhance cultivar development, via selection during the juvenile phase and parental selection prior to crossing. Next-generation sequencing and its derivative technologies have been used for genome-wide molecular marker discovery. To bridge the gap between marker development and MAS implementation, this study developed a novel practical strategy with a semi-automated pipeline that incorporates traitassociated single nucleotide polymorphism marker discovery, low-cost genotyping through amplicon sequencing (AmpSeq) and decision making. The results document the development of a MAS package derived from genotyping-by-sequencing using three traits (flower sex, disease resistance and acylated anthocyanins) in grapevine breeding. The vast majority of sequence reads (?99%) were from the targeted regions. Across 380 individuals and up to 31 amplicons sequenced in each lane of MiSeq data, most amplicons (83 to 87%) had o10% missing data, and read depth had a median of 220-244 ×. Several strengths of the AmpSeq platform that make this approach of broad interest in diverse crop species include accuracy, flexibility, speed, high-throughput, lowcost and easily automated analysis.
AB - Marker-assisted selection (MAS) is often employed in crop breeding programs to accelerate and enhance cultivar development, via selection during the juvenile phase and parental selection prior to crossing. Next-generation sequencing and its derivative technologies have been used for genome-wide molecular marker discovery. To bridge the gap between marker development and MAS implementation, this study developed a novel practical strategy with a semi-automated pipeline that incorporates traitassociated single nucleotide polymorphism marker discovery, low-cost genotyping through amplicon sequencing (AmpSeq) and decision making. The results document the development of a MAS package derived from genotyping-by-sequencing using three traits (flower sex, disease resistance and acylated anthocyanins) in grapevine breeding. The vast majority of sequence reads (?99%) were from the targeted regions. Across 380 individuals and up to 31 amplicons sequenced in each lane of MiSeq data, most amplicons (83 to 87%) had o10% missing data, and read depth had a median of 220-244 ×. Several strengths of the AmpSeq platform that make this approach of broad interest in diverse crop species include accuracy, flexibility, speed, high-throughput, lowcost and easily automated analysis.
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U2 - 10.1038/hortres.2016.2
DO - 10.1038/hortres.2016.2
M3 - Article
C2 - 27257505
AN - SCOPUS:85016014352
SN - 2662-6810
VL - 3
JO - Horticulture Research
JF - Horticulture Research
M1 - 16002
ER -
