Iochemical signals came from their sex- and strain-dimorphic expression in mice. Male urine contains drastically larger concentrations of MUPs than female, when males from different inbred strains express option combinations in the genes (Cheetham et al. 2009; Clissold et al. 1984). This variability is a lot more pronounced in the MUP content of individual wild mice, with all the exception of a single uncommon protein which is virtually uniformly present (Robertson et al. 1997). Subsequent experiments implicated MUPs as possible individuality signals that mice use to prevent inbreeding and assess heterozygosity (Hurst et al. 2001; Sherborne et al. 2007; Thom et al. 2008). The MUP content material of C57BL6J mice has been purified from male urine (Table 1) and produced in vitro. Each types of MUP were shown to become adequate to provoke aggressive behaviour in a resident male when daubed around the back of a castrated intruder (Chamero et al. 2007). Importantly, the pool of MUPs directly activated a proportion of VSNs and the behavioural response was dependent on the resident having a functional VNO (Chamero et al. 2007, 2011). When the response of females for the mixture of male MUPs was assessed, a sturdy experience-independent attraction was observed. Nonetheless, only the atypically invariant MUP elicits this behaviour individually (Roberts et al. 2010). Officially named MUP20 but broadly known as Darcin, this particular MUP appears to meet the classical definition of a sex pheromone. However, constant with an enhanced function for olfactory finding out in mammalian behaviour, it may also condition other odours with behaviouralX. Ibarra-Soria et al.: Genomic basis of vomeronasal-mediated behaviourTable 1 Important urinary protein genes in the GRCm38 mouse reference genome Gene Mup4 Mup6 Mup7a Mup-ps1 Mup2 Mup-ps2 Mup8 Mup-ps3 Mup9 Mup-ps4 Mup1 Mup-ps6 Mup10a Mup-ps5 Mup11 Mup-ps7 Mup12 Mup-ps8 Mup-ps9 Mup13 Mup-ps10 Mup14 Mup-ps11 Mup15 Mup-ps12 Mup16 Mup-ps13 Mup17 Mup-ps14 Mup18 Mup-ps15 Mup19a Mup-ps16 Mup5 Mup-ps17 Mup-ps18 Mup-ps19 Mup-ps20 Mup-ps21 Mup20a,b Mup3a Mup21 Mup-psa bEnsembl ID ENSMUSG00000041333 ENSMUSG00000078689 ENSMUSG00000073842 ENSMUSG00000083239 ENSMUSG00000078688 ENSMUSG00000073840 ENSMUSG00000078687 ENSMUSG00000095455 ENSMUSG00000078686 ENSMUSG00000078685 ENSMUSG00000078683 ENSMUSG00000094222 ENSMUSG00000078680 ENSMUSG00000082868 ENSMUSG00000073834 ENSMUSG00000094743 ENSMUSG00000094793 ENSMUSG00000096891 ENSMUSG00000096652 ENSMUSG00000089873 ENSMUSG00000082173 ENSMUSG00000073830 ENSMUSG00000095978 ENSMUSG00000096674 ENSMUSG00000073835 ENSMUSG00000078675 ENSMUSG00000095532 ENSMUSG00000096688 ENSMUSG00000082065 ENSMUSG00000078674 ENSMUSG00000083304 ENSMUSG00000078673 ENSMUSG00000090090 ENSMUSG00000058523 ENSMUSG00000081053 ENSMUSG00000082363 ENSMUSG00000082644 ENSMUSG00000084309 ENSMUSG00000083524 ENSMUSG00000078672 ENSMUSG00000066154 ENSMUSG00000066153 ENSMUSGMGI ID MGI:97236 MGI:3650962 MGI:3709615 MGI:3651069 MGI:97234 MGI:3651073 MGI:3709619 MGI:3650796 MGI:3782918 MGI:3782916 MGI:97233 MGI:3647161 MGI:1924164 MGI:3650601 MGI:3709617 MGI:3651245 MGI:3780193 MGI:3780197 MGI:3649622 MGI:3702003 MGI:3649623 MGI:3702005 MGI:3649621 MGI:3780235 MGI:3783148 MGI:3780250 MGI:5(S)?-?HPETE Biological Activity 3802118 MGI:3705217 MGI: 3651980 MGI:3705220 MGI:3652152 MGI:3705235 MGI:3645603 MGI:104974 MGI:3705843 MGI:3651979 MGI:3652149 MGI:3651976 MGI:3652151 MGI:3651981 MGI:97235 MGI:3650630 MGI:Chr. 4 four 4 4 four four 4 four four 4 four four 4 four 4 four four 4 four 4 4 4 4 four 4 four 4 4 four four 4 four 4 four 4 four four four 4.