TY - JOUR
T1 - The effects of a loin muscling quantitative trait locus (LoinMAX TM) on carcass and VIA-based traits in crossbred lambs
AU - Masri, AY
AU - Lambe, NR
AU - Macfarlane, JM
AU - Brotherstone, S
AU - Haresign, W
AU - Rius-Vilarrasa, E
AU - Bunger, L
PY - 2010
Y1 - 2010
N2 - LoinMAX (LM) is a quantitative trait locus (QTL), which was found to be segregated in Australian Poll Dorset sheep, and maps to
the distal end of sheep chromosome 18. LM-QTL was reported to increase Musculus longissimus dorsi area and weight by 11%
and 8%, respectively. The aim of this study was to comprehensively evaluate the direct effects of LM-QTL in a genetic background
typical of the stratified structure of the UK sheep industry, before it can be recommended for use in the United Kingdom.
Crossbred lambs, either non-carriers or carrying a single copy of LM-QTL, were produced out of Scottish Mule ewes (Bluefaced
Leicester3Scottish Blackface) artificially inseminated with semen from two Poll Dorset rams that were heterozygous for LM-QTL.
Unexpectedly, one of these rams was also heterozygous for a QTL that affects the overall carcass muscling (MyoMAXTM). This was
accounted for by nesting MyoMAXTM status (carrier or non-carrier) within sire in the statistical analysis. Lambs were weighed and
scanned by using X-ray computed tomography (CT) at an average age of 113 days. Ultrasound scan measurements, along with
lamb weights, were taken at an average age of 140 days and lambs were then slaughtered. Carcasses were weighed and classified
for fat cover and conformation scores, based on the Meat and Livestock Commission (MLC) carcass classification scheme, and then
scanned by using a video image analysis (VIA) system. M. longissimus lumborum (MLL) width, as measured by CT scanning, was
greater (P,0.05) in lambs heterozygous for LM-QTL compared with non-carriers. MLL in LM-QTL carrier lambs was also
significantly deeper, as measured by both ultrasound muscle depth at the third lumbar vertebrae (13.7%; P,0.05) and CT
scanning at the fifth lumbar vertebrae (13.4%; P,0.01). Consequently, MLL area, was measured by using CT scanning, was
significantly higher (14.5%; P,0.01) in lambs carrying a single copy of LM-QTL compared with non-carriers. Additional traits
measured by CT, such as leg muscle dimensions, average muscle density and tissue proportions, were not significantly affected by
LM-QTL. LM-QTL did not significantly affect total carcass lean or fat weights or MLC conformation and fat score classifications.
Using previously derived algorithms, VIA could detect a significant effect of the LM-QTL on the predicted weight of saleable
meat yield in the loin primal cut (12.2%; P,0.05), but not in the other primal cuts, or the total carcass.
AB - LoinMAX (LM) is a quantitative trait locus (QTL), which was found to be segregated in Australian Poll Dorset sheep, and maps to
the distal end of sheep chromosome 18. LM-QTL was reported to increase Musculus longissimus dorsi area and weight by 11%
and 8%, respectively. The aim of this study was to comprehensively evaluate the direct effects of LM-QTL in a genetic background
typical of the stratified structure of the UK sheep industry, before it can be recommended for use in the United Kingdom.
Crossbred lambs, either non-carriers or carrying a single copy of LM-QTL, were produced out of Scottish Mule ewes (Bluefaced
Leicester3Scottish Blackface) artificially inseminated with semen from two Poll Dorset rams that were heterozygous for LM-QTL.
Unexpectedly, one of these rams was also heterozygous for a QTL that affects the overall carcass muscling (MyoMAXTM). This was
accounted for by nesting MyoMAXTM status (carrier or non-carrier) within sire in the statistical analysis. Lambs were weighed and
scanned by using X-ray computed tomography (CT) at an average age of 113 days. Ultrasound scan measurements, along with
lamb weights, were taken at an average age of 140 days and lambs were then slaughtered. Carcasses were weighed and classified
for fat cover and conformation scores, based on the Meat and Livestock Commission (MLC) carcass classification scheme, and then
scanned by using a video image analysis (VIA) system. M. longissimus lumborum (MLL) width, as measured by CT scanning, was
greater (P,0.05) in lambs heterozygous for LM-QTL compared with non-carriers. MLL in LM-QTL carrier lambs was also
significantly deeper, as measured by both ultrasound muscle depth at the third lumbar vertebrae (13.7%; P,0.05) and CT
scanning at the fifth lumbar vertebrae (13.4%; P,0.01). Consequently, MLL area, was measured by using CT scanning, was
significantly higher (14.5%; P,0.01) in lambs carrying a single copy of LM-QTL compared with non-carriers. Additional traits
measured by CT, such as leg muscle dimensions, average muscle density and tissue proportions, were not significantly affected by
LM-QTL. LM-QTL did not significantly affect total carcass lean or fat weights or MLC conformation and fat score classifications.
Using previously derived algorithms, VIA could detect a significant effect of the LM-QTL on the predicted weight of saleable
meat yield in the loin primal cut (12.2%; P,0.05), but not in the other primal cuts, or the total carcass.
KW - Computer tomography
KW - Crossbred lambs
KW - LoinMAX TM QTL
KW - Muscling
KW - Video image analysis
U2 - 10.1017/S175173110999125X
DO - 10.1017/S175173110999125X
M3 - Article
SN - 1751-732X
VL - 4
SP - 407
EP - 416
JO - Animal
JF - Animal
IS - 3
ER -