@article{57e892897a4e4d4681290425516bfa68,
title = "Shifts in morphology, gene expression, and selection underlie web loss in Hawaiian Tetragnatha spiders",
abstract = "Background: A striking aspect of evolution is that it often converges on similar trajectories. Evolutionary convergence can occur in deep time or over short time scales, and is associated with the imposition of similar selective pressures. Repeated convergent events provide a framework to infer the genetic basis of adaptive traits. The current study examines the genetic basis of secondary web loss within web-building spiders (Araneoidea). Specifically, we use a lineage of spiders in the genus Tetragnatha (Tetragnathidae) that has diverged into two clades associated with the relatively recent (5 mya) colonization of, and subsequent adaptive radiation within, the Hawaiian Islands. One clade has adopted a cursorial lifestyle, and the other has retained the ancestral behavior of capturing prey with sticky orb webs. We explore how these behavioral phenotypes are reflected in the morphology of the spinning apparatus and internal silk glands, and the expression of silk genes. Several sister families to the Tetragnathidae have undergone similar web loss, so we also ask whether convergent patterns of selection can be detected in these lineages. Results: The cursorial clade has lost spigots associated with the sticky spiral of the orb web. This appears to have been accompanied by loss of silk glands themselves. We generated phylogenies of silk proteins (spidroins), which showed that the transcriptomes of cursorial Tetragnatha contain all major spidroins except for flagelliform. We also found an uncharacterized spidroin that has higher expression in cursorial species. We found evidence for convergent selection acting on this spidroin, as well as genes involved in protein metabolism, in the cursorial Tetragnatha and divergent cursorial lineages in the families Malkaridae and Mimetidae. Conclusions: Our results provide strong evidence that independent web loss events and the associated adoption of a cursorial lifestyle are based on similar genetic mechanisms. Many genes we identified as having evolved convergently are associated with protein synthesis, degradation, and processing, which are processes that play important roles in silk production. This study demonstrates, in the case of independent evolution of web loss, that similar selective pressures act on many of the same genes to produce the same phenotypes and behaviors.",
keywords = "Convergence, Gene expression, Hawaiʻi, Selection, Spidroins, Tetragnatha, Transcriptomics, Web loss",
author = "Berger, {Cory A.} and Brewer, {Michael S.} and Nobuaki Kono and Hiroyuki Nakamura and Kazuharu Arakawa and Kennedy, {Susan R.} and Wood, {Hannah M.} and Adams, {Seira A.} and Gillespie, {Rosemary G.}",
note = "Funding Information: Funding for the study was provided by a grant from UC Berkeley{\textquoteright}s Summer Undergraduate Research Fellowship (SURF) to CAB, with additional support from an NSF Graduate Research Fellowship (SAA), and the Schlinger Foundation (RGG). The funding bodies played no role in the design of the study and collection, analysis, and interpretation of data and in writing the manuscript. Funding Information: The permit processing and access to different reserves and private land was possible thanks to Steve Bergfeld (DOFAW Big Island), Pat Bily (TNC Maui), Tabetha Block (HETF), Lance DaSilva (DOFAW Maui), Charmian Dang (NAR), Melissa Dean (HETF), Betsy Gagne (NAR), Elizabeth Gordon (HALE), Cynthia King (DLNR), Russell Kallstrom (TNC Moloka?i), Joey Mello (DOFAW Big Island), Ed Misaki (TNC Moloka?i), and Kawika Winter (Limahuli Botanical Garden). Imaging for the spinnerets was supported by an NSF Graduate Research Internship Program (GRIP) to SRK, with thanks to Scott Whittaker at the National Museum of Natural History Imaging Lab at the Smithsonian Institution. For the earlier imaging, RGG thanks the Zoology Department, U.H. Manoa, and in particular Marilyn Dunlap and Tina Carvalho. We thank Anna Wood and Gregg Stephenson for help with collecting (funded by the UC Berkeley Sponsored Projects for Undergraduate Research). We are also grateful to Jessica Garb and Cheryl Hayashi for their suggestions regarding dissection of silk glands. Funding Information: The permit processing and access to different reserves and private land was possible thanks to Steve Bergfeld (DOFAW Big Island), Pat Bily (TNC Maui), Tabetha Block (HETF), Lance DaSilva (DOFAW Maui), Charmian Dang (NAR), Melissa Dean (HETF), Betsy Gagne (NAR), Elizabeth Gordon (HALE), Cynthia King (DLNR), Russell Kallstrom (TNC Molokaʻi), Joey Mello (DOFAW Big Island), Ed Misaki (TNC Molokaʻi), and Kawika Winter (Limahuli Botanical Garden). Imaging for the spinnerets was supported by an NSF Graduate Research Internship Program (GRIP) to SRK, with thanks to Scott Whittaker at the National Museum of Natural History Imaging Lab at the Smithsonian Institution. For the earlier imaging, RGG thanks the Zoology Department, U.H. Manoa, and in particular Marilyn Dunlap and Tina Carvalho. We thank Anna Wood and Gregg Stephenson for help with collecting (funded by the UC Berkeley Sponsored Projects for Undergraduate Research). We are also grateful to Jessica Garb and Cheryl Hayashi for their suggestions regarding dissection of silk glands. Publisher Copyright: {\textcopyright} 2021, The Author(s).",
year = "2021",
month = dec,
doi = "10.1186/s12862-021-01779-9",
language = "English",
volume = "21",
journal = "BMC Ecology and Evolution",
issn = "1472-6785",
publisher = "BioMed Central",
number = "1",
}