Department of Biological Sciences, Union College, Schenectady, NY 12308, USA.
Comp Biochem Physiol B Biochem Mol Biol. 2011 Oct;160(2-3):110-6. doi: 10.1016/j.cbpb.2011.07.004. Epub 2011 Jul 22.
Intraspecific studies have repeatedly shown that muscle-specific oxidative enzyme activities scale negatively with body mass while muscle-specific glycolytic enzyme activities scale positively. However, most of these studies have not included juveniles. In this study, we examined how citrate synthase (CS, EC 2.3.3.1) and lactate dehydrogenase (LDH; EC 1.1.1.27) activity in the jumping muscle of Schistocerca americana grasshoppers varied with ontogeny across a 40-fold increase in body size. In contrast to the pattern observed when adult conspecifics are compared, we show that jumping muscle CS activity increased more than 2-fold from 2nd instars to adults, while jumping muscle LDH activity increased more than 5-fold. The increased LDH activity in older grasshoppers supports previous data that older grasshoppers have a reduced jumping endurance. The increased CS activity with age may help older grasshoppers efficiently produce aerobic ATP to bend cuticular springs for energy storage before a jump or alternatively recover from anaerobic metabolism after jumping. Metabolic changes in S. americana jumping muscle are similar to other developing taxa and highlight the importance of including juveniles within intraspecific studies. When compared to adults, juvenile locomotion may have increased selection pressure because of both greater energetic demands during growth and higher predation rates.
种内研究反复表明,肌肉特异性氧化酶活性与体重呈负相关,而肌肉特异性糖酵解酶活性与体重呈正相关。然而,这些研究大多没有包括幼体。在这项研究中,我们研究了美洲蟋蟀跳跃肌肉中的柠檬酸合酶 (CS,EC 2.3.3.1) 和乳酸脱氢酶 (LDH;EC 1.1.1.27) 活性如何在 40 倍的体型增加中随个体发育而变化。与比较成年同种动物时观察到的模式相反,我们发现跳跃肌肉 CS 活性从 2 龄幼虫到成虫增加了两倍以上,而跳跃肌肉 LDH 活性增加了 5 倍以上。老年蟋蟀中增加的 LDH 活性支持了先前的数据,即老年蟋蟀的跳跃耐力降低。随着年龄的增长,CS 活性的增加可能有助于老年蟋蟀有效地产生有氧 ATP,以便在跳跃前弯曲角质弹簧进行能量储存,或者在跳跃后从无氧代谢中恢复。美洲蟋蟀跳跃肌肉的代谢变化与其他发育分类群相似,强调了在种内研究中包括幼体的重要性。与成年个体相比,由于生长过程中能量需求增加和被捕食率提高,幼年个体的运动可能会受到更大的选择压力。
