4 research outputs found
Single nucleotide polymorphisms in several porcine cathepsin genes are associated with growth, carcass, and production traits in Italian Large White pigs
To identify DNA markers associated with performance, carcass, and meat production traits including muscle postmortem cathepsin activity, sev- eral porcine genes encoding for lysosomal proteinases (cathepsin B, CTSB; cathepsin D, CTSD; cathepsin F, CTSF; cathepsin H, CTSH; cathepsin L, CTSL; and cathepsin Z, CTSZ) and for a cathepsin inhibitor (cys- tatin B) were investigated. Single nucleotide polymor- phisms were identified in CTSD, CTSH, CTSL, and CTSZ genes with a combination of in silico expressed sequence tag database mining and single-strand confor- mation polymorphism analysis. Sequencing and PCR- RFLP protocols were used to validate the identified polymorphisms. Allele frequencies at these loci were investigated in Italian Large White, Landrace, Duroc, Pietrain, Belgian Landrace, Hampshire, and Meishan breeds. Genotyping CTSD and CTSH markers made it possible to genetically map these genes to SSC 2 and 7, respectively. Markers in CTSD, CTSH, CTSL, and CTSZ genes, together with mutations we previously re- ported in cystatin B, CTSB, and CTSF genes, were genotyped in an Italian Large White sib-tested popu- lation (272 or 482 animals). For these animals, meat quality traits (cathepsin B activity, pH measured at 2 h postmortem, pH measured at 24 h postmortem, glyco- gen, lactate, and glycolytic potential of semimembrano- sus muscle) and EBV for ADG, lean cuts (LC), backfat thickness (BFT), ham weight (HW), and feed:gain ra- tio (FGR) were determined. Analyzed markers did not show any association with muscle cathepsin B activity. Thus, it could be possible that different genes, other than these investigated candidates, affect this trait, which is correlated with the excessive softness defect of dry-cured hams. The results of association analysis confirmed the effects we already reported in another study for CTSF on ADG (P = 0.008), LC (P = 0.001), and BFT (P = 0.02). Moreover, CTSD was associated with ADG, LC (P < 0.0001), BFT, HW, and FGR (P < 0.001); CTSH was associated with FGR (P = 0.026); and CTSZ was associated with ADG (P = 0.006), LC (P = 0.01), HW (P = 0.024), and FGR (P = 0.029). The biochemical and physiological functions of the lys- osomal proteinases, together with the results obtained in our investigation, suggest that the cathepsin gene family might play important roles affecting economic traits in pigs
Simultaneous Detection of RNA and DNA Targets Based on Multiplex Isothermal Amplification
The
detection of pathogenic microorganisms present in food, feed,
plant, and other samples is important for providing safe food as well
as for preventing the spread of microbes. The genome of pathogens
is made of DNA or RNA, therefore a multiplex diagnostics tool would
ideally be able to amplify and detect both RNA and DNA targets in
parallel. With this goal we have developed an isothermal nucleic acid
sequence based amplification [NASBA] implemented microarray analysis
(NAIMA) procedure, suitable for the simultaneous multiplex amplification
of RNA and DNA targets, coupled with the detection on ArrayTubes.
The method is demonstrated to be very sensitive and specific for the
detection of two economically important quarantine plant pathogens
of potato, the <i>potato spindle tuber viroid</i> (RNA target)
and Ralstonia solanacearum (DNA target).
Because of its isothermal amplification and simple detection equipment,
the method is also applicable for on-site analyses. NAIMA can be used
in any domain where there is the need to detect RNA and DNA targets
simultaneously