Date of Publication
2023
Document Type
Bachelor's Thesis
Degree Name
Bachelor of Science in Biology major in Molecular Biology and Biotechnology
Subject Categories
Biology
College
College of Science
Department/Unit
Biology
Thesis Advisor
Ma. Carmen Ablan-Lagman
Defense Panel Chair
Emelina H. Mandia
Defense Panel Member
Mark Christian Felipe R. Redillas
Mark Angelo Balendres
Abstract/Summary
Two commercially cultivated species of coffee include Coffea canephora (Robusta) and Coffea arabica (Arabica). One of the reasons for the decline in volume of production of coffee in the Philippines are pests and diseases–one of which is the coffee leaf rust (CLR), caused by the obligate biotrophic fungus Hemileia vastatrix. Existing literature reports that resistance to CLR is conferred by resistance genes called SH (susceptibility to Hemileia sp.) genes. Currently, there are nine reported SH genes, and the SH3 gene locus was regarded to confer robust resistance to CLR. Ten molecular markers of the SH3 gene locus were gathered from published literature, and were subjected to Primer-BLAST and Nucleotide BLAST to identify the location of this gene cluster both in the C. canephora and C. arabica genomes. The binding sites of six molecular markers, BA-48-21O-f, Sat244, Sat160, SP-M5-SH3, Sat281, and BA-42-21B-r, indicated that the SH3 gene locus was located in Chromosome 3 wherein the region between 3 Mbp-16 Mbp was analyzed. Possible resistance genes within this region were obtained from Ensembl Plants and Coffee Genome Hub. The gathered genes were further filtered using the Orange program to determine which are associated with defense response during infection using their Gene Ontology (GO) term names. In C. canephora, there were 94 possible resistance genes, whereas there were 82 and 65 identified in the C. canephora and C. eugenioides subgenomes, respectively, of the entire C. arabica genome. These genes were subjected to Protein BLAST and Translated BLAST to identify the proteins they encode. Maps indicating the locations of the genes within the chromosome were constructed using the chromoMap app. The findings of this study serve as a reference of which genes can be used in the marker-assisted selection of disease-resistant coffee varieties. It aims to contribute to the development of resistant cultivars through conventional breeding aided by molecular techniques.
Abstract Format
html
Language
English
Format
Electronic
Physical Description
x, 153 leaves
Keywords
Coffee rust disease; Coffee; Robusta coffee; Hemileia vastatrix
Recommended Citation
Merlin, M. T. (2023). In silico screening of the SH3 resistance locus in coffea canephora and coffea arabica for candidate genes involved in coffee leaf rust resistance. Retrieved from https://animorepository.dlsu.edu.ph/etdb_bio/36
Upload Full Text
wf_yes
Embargo Period
8-16-2023
