BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. rs2476601, GATA1, Response to oxidative stress, Hepatitis, Hippocampus, Alcohol, Prozac)
Bookmark Forward

Assessment of the presence of chemosensing receptors based on bitter and fat taste in the gastrointestinal tract of young pig.

M Colombo, P Trevisi, G Gandolfi, P Bosi

University of Bologna, DIPROVAL, 42123 Reggio Emilia, Italy.

Journal of animal science 2012 Dec


filter terms:
  • agarose (2)
  • animal feed (1)
  • animal nutritional physiological phenomena (1)
  • animals (1)
  • colon (3)
  • diet (1)
  • dietary fats (2)
  • exon (1)
  • gastrointestinal tract (2)
  • gene (1)
  • gene expression (1)
  • gene expression regulation (1)
  • genes amplification (1)
  • GPR120 (3)
  • GPR40 (2)
  • GPR43 (2)
  • HMBS2 (1)
  • homologous sequences (2)
  • human (2)
  • jejunum (1)
  • male (1)
  • mucosa (1)
  • pigs (3)
  • RPL4 (1)
  • sensation (1)
  • stomach (1)
  • swine (1)
  • TAS2R1 (1)
  • TAS2R10 (1)
  • TAS2R13 (1)
  • TAS2R16 (1)
  • TAS2R3 (2)
  • TAS2R38 (2)
  • TAS2R46 (1)
  • TAS2R7 (1)
  • TAS2R9 (1)
  • taste (9)
    • Sizes of these terms reflect their relevance to your search.

    Knowledge on porcine bitter and fat taste receptors and on their expression in gastrointestinal tract of pigs is scarce. We searched for the presence of porcine homologous sequences for 13 human transcripts of bitter and fat taste receptors in ENSEMBL and National Center for Biotechnology Information databases. For taste 2 receptor (TAS2R) 8, alignment was not observed; for TAS2R13 and TAS2R46 the porcine predicted sequence aligned with several other human bitter genes. For 7 genes for bitter taste (TAS2R1, TAS2R3, TAS2R7, TAS2R9, TAS2R10, TAS2R16, and TAS2R38) and for 3 genes for fat taste (GPR40, GPR43, and GPR120), a full homology for exon sequences was found and primers were designed by Primer3. These 7 genes were amplified with real-time PCR and verified on agarose gel in 5 gastrointestinal segments of weaned pigs: oxyntic (ST1), pyloric (ST2), and cardiac to oxyntic transition mucosa (ST3), jejunum (JEJ), and colon (COL). Suitability of mRNA was verified by amplifying RPL4 and HMBS2 genes. Each bitter taste gene was detectable on agarose gel in at least 1 subject of all the gastrointestinal segments except for TAS2R3 and TAS2R38 that were never detected in ST1 and COL, respectively. The inspection of bitter taste genes amplification curve indicated that the expression was in general very low. GPR43 and GPR120 were present in all segments from all pigs. Expression was not detected for GPR40. Data also indicate that colon is the preeminent tract where fat detection by GPR120 takes place (P < 0.001). The presence of gene expression for several chemosensing receptors for bitter and fat taste in different compartments of the stomach confirms that this organ should be considered a player for the early detection of bolus composition.

    Citation

    M Colombo, P Trevisi, G Gandolfi, P Bosi. Assessment of the presence of chemosensing receptors based on bitter and fat taste in the gastrointestinal tract of young pig. Journal of animal science. 2012 Dec;90 Suppl 4:128-30

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 23365305

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.