November 22, 2024

Peering Into the Inner Workings of Evolution With Jellyfish Eyes

” Eyes progressed numerous times independently within the jellyfish,” Cartwright stated. “Weve known for a while that there is not a single origin of eyes in all animals however were shocked at how numerous times they progressed independently in jellyfish.”
Now, Cartwright and her collaborators plan a scientific “deep dive” into evolutionary patterns to discover whether jellyfish utilize the various or same aspects of their hereditary toolkit to develop eyes every time that they have developed.
The researchers prepare to rebuild an in-depth phylogenomic tree of Medusozoa (a clade in the Cnidaria phylum) to trace the evolutionary history of jellyfish eyes and utilize relative transcriptomes and single-cell RNA sequencing to figure out resemblances and differences in hereditary pathways of convergent eyes.
” Jellyfish are an actually great system for this, because they have a variety of eyes, varying from basic clusters of light-sensing cells to very complicated eyes– camera-type eyes that can form images and have a lens, a cornea and a retina– so ostensibly, they can look similar to vertebrates,” Cartwright said.
In her KU lab, she plans to examine many species of jellyfish to determine all genes revealed in single cells of different jellyfish eyes and discover whats shared amongst various instances of jellyfish and whats changed in their basic genetic foundation.
” Cells themselves have their own attributes, and theyre really an outcome of many, various genes being expressed– so often we may miss a total pattern by looking at specific genes,” the KU scientist said. “But if we look at all the genes that are expressed at the cell and what that particular result is, that might give us a various level of info. Thats why its terrific to take a look at all those various levels and see what is comparable and whats altered to actually assist us understand this really complicated concern. Since theyre so open to these types of experiments, Jellyfish are a great system to do this. We can take a look at private genes and how theyre expressed; we can look wholesale at all the genes that are expressed in those cells; and then we can see what is similar at the morphological level in between those and whats various.”
Part of the work under the new NSF grant will consist of travel to Panama, a hotspot of jellyfish biodiversity, to collect specimens. Cartwright and her colleagues will utilize the fruits of their research study to build a more detailed phylogenetic tree, or evolutionary history, of jellyfish.
” Jellyfish are very diverse– theres a couple of thousand species,” Cartwright said. “Uncovering their precise evolutionary history has been really challenging in part due to the fact that a great deal of this diversity occurred over half a billion years ago. The other obstacle is to sample these organisms. A number of them live in open-ocean environments in the deep sea, and a few of them are exceptionally little and hard to find. Were looking at ancient divergence times within a varied and difficult-to-sample group. This has been a difficulty that Ive been working on for at least the last 20 years of my profession, so were truly thrilled in the age of genomics because getting more information and being able to series more genes and throwing more DNA series at this problem is anticipated to be very promising at solving some of these relationships among Cnidarians.”

This tiny jellyfish called Polyorchis pencillatus is referred to as red-eyed jellyfish. Its several eyes, called ocelli, can be seen at the base of the arms and consist of light-sensing cells and red pigment. Credit: Anna Klompen
Some jellyfish have basic eyes; some have complicated ones. Other jellyfish have no eyes at all. Indeed, recent research study has revealed jellyfish eyes in various types have actually evolved individually and separately lot of times in different ways over lots of millennia, making them a perfect model to much better comprehend how the trait expresses itself genetically.
Now, a group of scientists that includes Paulyn Cartwright, teacher of ecology & & evolutionary biology at the University of Kansas; Maria Pia Miglietta of Texas A&M University, Galveston; and lead principal detective Todd Oakley of the University of California, Santa Barbara, has actually gotten a grant from the National Science Foundation to study how jellyfish-eye “merging”– duplicated occasions in the history of life– offers a window on how advancement works at genetic, morphologic and cellular levels.
The KU portion of the NSF grant amounts to $494,890.

This tiny jellyfish called Polyorchis pencillatus is referred to as red-eyed jellyfish. Some jellyfish have easy eyes; some have intricate ones. Other jellyfish have no eyes at all. Recent research study has actually shown jellyfish eyes in different species have developed independently and independently lots of times in different methods over lots of millennia, making them a perfect model to much better comprehend how the quality reveals itself genetically.
” Jellyfish are very diverse– theres a few thousand species,” Cartwright stated.