Hayssen V
University of Nottingham, England. vhayssen@science. smith.edu
J Comp Psychol. 1997 Dec;111(4):419-23. doi: 10.1037/0735-7036.111.4.419.
The agouti locus influences coat color by antagonizing melanocyte-stimulating hormone (MSH) at its receptor on pigment cells and may antagonize MSH in neural tissue. This study replicates work on rats to assess whether behavioral (neural) effects of the agouti locus are as similar across mammals as those on coat color. Handling, open-field, platform jump, and food-novelty tests were conducted on agouti and nonagouti deer mice (Peromyscus maniculatus) following protocols in C. A. Cottle and E. O. Price (1987). As with rats, nonagouti deer mice were less aggressive, less active, and easier to handle compared with their agouti counterparts. Nonagouti deer mice also groomed more than agouti subjects. Thus, behavioral effects of the agouti locus are conservative, and agouti may be an important modulator of melanocortins in neural as well as integumentary tissue.
刺豚鼠基因座通过在色素细胞的受体上拮抗促黑素细胞激素(MSH)来影响毛色,并且可能在神经组织中拮抗MSH。本研究重复了在大鼠身上进行的实验,以评估刺豚鼠基因座的行为(神经)效应在哺乳动物中是否与毛色效应一样相似。按照C. A. 科特尔和E. O. 普赖斯(1987年)的实验方案,对刺豚鼠和非刺豚鼠的鹿鼠(白足鼠)进行了处理、旷场、平台跳跃和食物新奇性测试。与大鼠一样,与刺豚鼠相比,非刺豚鼠的鹿鼠攻击性更弱、活动更少,也更易于处理。非刺豚鼠的鹿鼠梳理毛发的次数也比刺豚鼠多。因此,刺豚鼠基因座的行为效应具有保守性,并且刺豚鼠可能是神经组织和皮肤组织中黑皮质素的重要调节因子。