Ross Kenneth G, Krieger Michael J B, Shoemaker D DeWayne
Department of Entomology, University of Georgia, Athens, Georgia 30602, USA.
Genetics. 2003 Dec;165(4):1853-67. doi: 10.1093/genetics/165.4.1853.
Little is known about the genetic foundations of colony social organization. One rare example in which a single major gene is implicated in the expression of alternative social organizations involves the presumed odorant-binding protein gene Gp-9 in fire ants. Specific amino acid substitutions in this gene invariably are associated with the expression of monogyny (single queen per colony) or polygyny (multiple queens per colony) in fire ant species of the Solenopsis richteri clade. These substitutions are hypothesized to alter the abilities of workers to recognize queens and thereby regulate their numbers in a colony. We examined whether these same substitutions underlie the monogyny/polygyny social polymorphism in the distantly related fire ant S. geminata. We found that Gp-9 coding region sequences are identical in the polygyne and monogyne forms of this species, disproving our hypothesis that one or a few specific amino acid replacements in the protein are necessary to induce transitions in social organization in fire ants. On the other hand, polygyne S. geminata differs genetically from the monogyne form in ways not mirrored in the two forms of S. invicta, a well-studied member of the S. richteri clade, supporting the conclusion that polygyny did not evolve via analogous routes in the two lineages. Specifically, polygyne S. geminata has lower genetic diversity and different gene frequencies than the monogyne form, suggesting that the polygyne form originated via a founder event from a local monogyne population. These comparative data suggest an alternative route to polygyny in S. geminata in which loss of allelic variation at genes encoding recognition cues has led to a breakdown in discrimination abilities and the consequent acceptance of multiple queens in colonies.
关于群体社会组织的遗传基础,人们知之甚少。一个涉及单个主要基因与替代社会组织表达相关的罕见例子是火蚁中假定的气味结合蛋白基因Gp-9。该基因中的特定氨基酸替换总是与里氏火蚁亚属火蚁物种中的单后制(每个群体一个蚁后)或多后制(每个群体多个蚁后)的表达相关。据推测,这些替换会改变工蚁识别蚁后的能力,从而调节群体中蚁后的数量。我们研究了这些相同的替换是否是远亲火蚁S. geminata中单后制/多后制社会多态性的基础。我们发现,该物种多蚁后型和单蚁后型的Gp-9编码区序列相同,这推翻了我们的假设,即蛋白质中一个或几个特定的氨基酸替换是诱导火蚁社会组织转变所必需的。另一方面,多蚁后型S. geminata在基因上与单蚁后型不同,而在里氏火蚁亚属中经过充分研究的成员S. invicta的两种类型中并未体现出这种差异,这支持了多后制在这两个谱系中并非通过类似途径进化而来的结论。具体而言,多蚁后型S. geminata的遗传多样性低于单蚁后型,且基因频率不同,这表明多蚁后型是通过一个奠基者事件从当地的单蚁后型群体中起源的。这些比较数据表明,S. geminata中的多后制有另一种途径,即编码识别线索的基因上等位基因变异的丧失导致了识别能力的崩溃,从而使群体中接受多个蚁后。