Return to search

cDNA SEQUENCES OF THE CAPRINE GAMMA DELTA T CELL HYBRID CO-RECEPTOR AND PATHOGEN RECOGNITION RECEPTOR WC1 MULTIGENE FAMILY

Workshop cluster 1 (WC1) molecules are exclusively expressed on the surface of gamma delta T cells and act as co-receptors and bind pathogens thus also functioning as pattern recognition receptors. The aim was to obtain cDNA evidence to support the recent caprine genome annotation of the WC1 multigene family conducted by a colleague. To get cDNA sequences three strategies were used. Strategy 'I' was used to obtain three clones that corresponded to WC1 SRCR domain d9 through the intracytoplasmic tail sequence. Strategy 'II' was used to obtain 6 clones. A PCR was conducted using SRCR domain b7 through the intracytoplasmic tail sequence. A third strategy obtained full-length WC1 transcripts. The three sequences that extended from SRCR domain d9 to the intracytoplasmic tail matched closely with predicted goat Gene 1 or 14. Another 3 sequences that extended from the SRCR b7 domain through SRCR domain d11 or through the intracytoplasmic tail matched with the predicted Genes 1, 2 and 14, respectively. Two additional full-length cDNA clones CH-MA-03 and 41 were completely sequenced in stages which involved a PCR amplication of the internal domains to complete the sequencing. The a1 domain of CH-MA41 was 100% similar to the annotated and predicted Gene 4 while CH-MA03 also was closest to Gene 4 with a 99% similarity. However, the intracytoplasmic tail sequence of these two cDNA clones was a Type II tail while Gene 4 had a Type I tail. Because of this difference in tails these two cDNA clones had a greater overall similarity with Genes 7 and 15 which had Type II tails. These results suggest that the genome assembly may have errors.

Identiferoai:union.ndltd.org:UMASS/oai:scholarworks.umass.edu:masters_theses_2-1497
Date24 March 2017
CreatorsSolangi, Maria
PublisherScholarWorks@UMass Amherst
Source SetsUniversity of Massachusetts, Amherst
Detected LanguageEnglish
Typetext
Formatapplication/pdf
SourceMasters Theses

Page generated in 0.0015 seconds