- Chalkias H, Jonas E, Andersson LS, Jacobson M, de Koning DJ, Lundeheim N, Lindgren G (2017). Identification of novel candidate genes for the inverted teat defect in sows using a genome-wide marker panel Journal of applied genetics,58(2):249-259. [see all QTL
 by this paper]
- Demeure, O; Sanchez, M P; Riquet, J; Iannuccelli, N; Demars, J; Feve, K; Kernaleguen, L; Gogue, J; Billon, Y; Caritez, J C; Mila (2005). Exclusion of the swine leukocyte antigens as candidate region and reduction of the position interval for the Sus scrofa chromosome 7 QTL affecting growth and fatness. J Anim Sci,83 (9): 1979-87. [see all QTL by this paper]
- Jonas E, Schreinemachers HJ, Kleinwächter T, Un C, Oltmanns I, Tetzlaff S, Jennen D, Tesfaye D, Ponsuksili S, Murani E, Juengst H, Tholen E, Schellander K, Wimmers K. (2008). QTL for the heritable inverted teat defect in pigs. Mammalian genome,19 (2): 127-38. [see all QTL by this paper]
- Sato, S; Atsuji, K; Saito, N; Okitsu, M; Sato, S; Komatsuda, A; Mitsuhashi, T; Nirasawa, K; Hayashi, T; Sugimoto, Y; Kobayashi, (2006). Identification of quantitative trait loci affecting corpora lutea and number of teats in a Meishan x Duroc F2 resource population. J Anim Sci,84 (11): 2895-901. [see all QTL by this paper]
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