Researchers look at the thought that jellyfish are among the initial free swimming creatures combined with the evolution of venom and mobility making them consider to be predators as well. #MUevolution21 https://t.co/GzgS0n05Si
Jellyfish are thought to be one of the first free-swimming animals in the ocean. Their evolution of mobility and venom made them capable of hunting in the water - making them one of the first free-swimming predators! #MUEvolution21 https://t.co/GwslSma5ZX
RT @BMCBiology: In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation…
RT @BMCBiology: In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation…
RT @BMCBiology: In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation…
RT @BMCBiology: In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation…
RT @BMCBiology: In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation…
The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predation | BMC Biology | Full Text https://t.co/kv3Z2V0lZ1
In case you missed it: The #genome of the giant Nomura’s #jellyfish sheds light on the early #evolution of active predation #WorldOceansDay Read more on jelly genomes here: https://t.co/ScuKD8dC1S https://t.co/70ENYTJ5sF
RT @GelatinousSting: Jellies have complex life histories, meaning they take on dramatically different shapes as they develop. Jellies can h…
RT @GelatinousSting: Jellies have complex life histories, meaning they take on dramatically different shapes as they develop. Jellies can h…
RT @GelatinousSting: Jellies have complex life histories, meaning they take on dramatically different shapes as they develop. Jellies can h…
RT @EvoDevoDiva: I love these jellies!! My research is all about how one genome can make so many different body plans and invertebrates are…
I love these jellies!! My research is all about how one genome can make so many different body plans and invertebrates are the masters at doing this!!
RT @GelatinousSting: Jellies have complex life histories, meaning they take on dramatically different shapes as they develop. Jellies can h…
Jellies have complex life histories, meaning they take on dramatically different shapes as they develop. Jellies can have planula, polyp, and jellyfish stages, but even after the jellyfish comes off the polyp, they look very different as they grow! Fig1c,
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
#MUevolution This article explains how the traits of ancient jellyfish have been continuously selected for, to increase jellyfish predation. Features of tentacles have given an advantage in predation and in mobility. https://t.co/TZjpXEYMzp
The genome of the giant Nomura's jellyfish sheds light on the early evolution of active predation. https://t.co/CP83p0fHN8
RT @realwrf: The genome of the giant Nomura’s jellyfish... "All other data can be obtained from the authors upon reasonable request." https…
RT @realwrf: The genome of the giant Nomura’s jellyfish... "All other data can be obtained from the authors upon reasonable request." https…
RT @realwrf: The genome of the giant Nomura’s jellyfish... "All other data can be obtained from the authors upon reasonable request." https…
The genome of the giant Nomura’s jellyfish... "All other data can be obtained from the authors upon reasonable request." https://t.co/wW9OnXyMK8
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @EvolPaper: The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predation https://t.co/3dDzyc8uwI @B…
The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predation https://t.co/3dDzyc8uwI @BMCBiology @genomics_fish #jellyfish
New research: The #genome of the the giant Nomura’s jellyfish. Expanded venom- and muscle-associated gene families might underlie this early predator’s successful hunting and swimming #DNAday19 https://t.co/ScuKD8dC1S #DNADay https://t.co/eqwtqdCtAP
RT @BMC_series: In this recent blog the authors explain what they found from the #genome of the giant Nomura’s jellyfish. https://t.co/fnDO…
RT @BMC_series: In this recent blog the authors explain what they found from the #genome of the giant Nomura’s jellyfish. https://t.co/fnDO…
In this recent blog the authors explain what they found from the #genome of the giant Nomura’s jellyfish. https://t.co/fnDO43fOcJ recently published in #BMCBiol https://t.co/b8o48Cu8CS
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @realwrf: The genome of the giant Nomura’s jellyfish https://t.co/pkPADGWH1g, also I somehow missed Clytia hemisphaerica too https://t.c…
New research: the #genome of the the giant Nomura’s jellyfish. Expanded venom and Myosin type II domains, plus #Wnt and #Hox gene families. Could underlie this early predator’s successful hunting and swimming? #cnidarian https://t.co/ScuKD8dC1S https://t.c
RT @realwrf: The genome of the giant Nomura’s jellyfish https://t.co/pkPADGWH1g, also I somehow missed Clytia hemisphaerica too https://t.c…
そういえば何年か前にエチゼンクラゲ関係の仕事をしていたような気がしないでもないけどよく覚えていない… ウッ 頭が / エチゼンクラゲのゲノム解析 Kim et al. 2019 BMC Biology https://t.co/Ey0MBfRiqA
RT @realwrf: The genome of the giant Nomura’s jellyfish https://t.co/pkPADGWH1g, also I somehow missed Clytia hemisphaerica too https://t.c…
RT @realwrf: The genome of the giant Nomura’s jellyfish https://t.co/pkPADGWH1g, also I somehow missed Clytia hemisphaerica too https://t.c…
The genome of the giant Nomura’s jellyfish https://t.co/pkPADGWH1g, also I somehow missed Clytia hemisphaerica too https://t.co/I7GxkOkrKs
The genome of the giant Nomura's jellyfish sheds light on the early evolution of active predation.: Related Articles The genome of the giant Nomura's jellyfish sheds light on the early evolution of active predation. BMC Biol. 2019 Mar 29;17(1):28… https://
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
エチゼンクラゲのゲノムの論文が出てる The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predation https://t.co/UvqBBQn3bn
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
RT @multicellgenome: Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, mayb…
Here we have a new #cnidarian #genome: the giant Nomura’s jellyfish. Myosin type II & venom domains are expanded, maybe due to the jellyfish mobility and active predation. Also gene family expansions of Wnt & posterior Hox genes @BMCBiology #resear
The great thing about science is that we are constantly learning and having a better understanding of how our constantly-changing world works. Check out this article for an interesting read! https://t.co/fEqBkL3xuB
The #genome of the giant Nomura’s #jellyfish: new research suggests genomic adaptions that may have aided in the success of these early predators, such as venom domains in tentacles and myosin contractility for hunting and swimming https://t.co/I0vijbKwq8
The genome of the giant Nomura’s jellyfish sheds light on the early evolution of active predation https://t.co/ScuKD8dC1S