@C8Luna @JacksonWheat1 For reference, compare the two following studies: https://t.co/xmA3HoG6PI https://t.co/ocBbKeJ1K1
RT @EES_update: The experiment: https://t.co/kyRYNM9uAH #evoevolving
The experiment: https://t.co/kyRYNM9uAH #evoevolving
I am wondering whether there are other examples of mutator genotypes emerging and fixing on such a short time-scale? I can only think about the phage-bacteria exp. of Pal & Buckling https://t.co/Ja7JsME2ai) and the WS / SM exp. of the Rainey lab https:
PRainey also see their previous paper on fitness decoupling and the evolution of multicellularity 2000 generations evolution: linage fitness increase, while cell fitness decrease https://t.co/UVcDtDzMkQ #ASMbiofilms
@baym That crazy mutational mechanisms can be co-opted to generate alternating phenotypes required for population persistence in the face of fluctuating environments. Katrin Hammerschmidt, Caroline Rose, Paul Rainey https://t.co/4WBqcYrEcT
Great experiment to evolve cell type switching by embracing cheaters. Evo via lots of epistasis/genetic contingency: https://t.co/yf8V9NTZPT
RT @NatureJapan: Nature ハイライト:細菌細胞は進化のために個体性を捨てる http://t.co/qs5lu62Ddx #進化生物学 #細菌
Paul Rainey: adaptive divergence n experimentl Pseudomonas populations https://t.co/Co2VqS3Zdr @EMBOcomm Members Mtg https://t.co/wNOQ2Cy2Y6
Article we saw linking the evolution of multicellularity and cooperation in bacterial populations: http://t.co/iZ8FUeVnAO #iFDV #evolution
Article we saw linking the evolution of multicellularity and cooperation in bacterial populations: http://t.co/iZ8FUeVnAO #iFDV #evolution
Congratulations Ananda Kumar for winning @WhitleyAwards !An earlier piece I did on his fab work: @ncfindia @mizoraman http://t.co/WFz6Y4HvQG
Congratulations Ananda Kumar for winning @WhitleyAwards !An earlier piece I did on his fab work: @ncfindia @mizoraman http://t.co/WFz6Y4HvQG
Congratulations Ananda Kumar for winning @WhitleyAwards !An earlier piece I did on his fab work: @ncfindia @mizoraman http://t.co/WFz6Y4HvQG
#365papers #87 Evolution of multicellularity w/life cycles - Hammerschidt: Cooperators sometimes need to be cheaters http://t.co/fPxQhKyZX6
@vscooper and this: http://t.co/LjpCkwcALC and this: http://t.co/BSkQMivha9 and this: http://t.co/iNRJMYZRBU @BiofilmJena @evokerr
@vscooper and this: http://t.co/LjpCkwcALC and this: http://t.co/BSkQMivha9 and this: http://t.co/iNRJMYZRBU @BiofilmJena @evokerr
@vscooper and this: http://t.co/LjpCkwcALC and this: http://t.co/BSkQMivha9 and this: http://t.co/iNRJMYZRBU @BiofilmJena @evokerr
How genetic profiling and tech minimise human-elephant conflicts #SCCSbng2014 http://t.co/hjYAg3n4C6 via @miss_sinha http://t.co/mti0LAxHcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/k2Kh0g434J
RT @F1000: Harnessing selfishness for the greater good on the origins of multicellularity. http://t.co/7WjIMez7EK
Harnessing selfishness for the greater good on the origins of multicellularity. http://t.co/zzJievhy2a
Harnessing selfishness for the greater good on the origins of multicellularity. http://t.co/zzJievhy2a
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/k2Kh0g434J
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/k2Kh0g434J
Life cycles, fitness decoupling and the evolution of multicellularity. http://t.co/Y84SupCbgC
Enjoyed mutS-SSR story in: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/RF0abR7nUF #evolvabilityevolves
Enjoyed mutS-SSR story in: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/RF0abR7nUF #evolvabilityevolves
Enjoyed mutS-SSR story in: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/RF0abR7nUF #evolvabilityevolves
明日のジャーナルセミナーでこれ発表しようと.詰んだ.ミスった.選択ミスった.ふえぇ.... Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/BfcrkqhzWs
明日のジャーナルセミナーでこれ発表しようと.詰んだ.ミスった.選択ミスった.ふえぇ.... Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/BfcrkqhzWs
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
RT @Neuro_Skeptic: Sobre la evolución de la multicelularidad http://t.co/yQfbAcS3v8
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Multi-cellular life may have evolved thanks to mutant single cell "cheats" http://t.co/r6fozSjzle We're built out of tiny con-artists
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/U70iQod6Pc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
A very novel & clever approach to studying the evolution of multicellularity. http://t.co/PDfkjVbBdc
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/9SV4tJWm1J
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/9SV4tJWm1J
Are elephants stressed? Yes, they are, finds research presented at SCCS this year. Coverage on elephant stress,... http://t.co/IuElt9XDPv
Origin of multicellularity with cheating cells and cooperative cells #bio346 http://t.co/bpSLVAhLpi
Interesting article in @nature on the evolution of multicellularity & "cheater" cells: http://t.co/F35reiFfT3
Nice job, Kerr Lab! Life cycles, fitness decoupling and the evolution of multicellularity : Nature http://t.co/ho8RmjqTun
Life cycles, fitness decoupling and the evolution of multicellularity. #biofilm evo from @evokerr & Rainey $ http://t.co/a3zJ2byP27
From single cells to multicellular life: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/Lh0jrCQEuX
How genetic profiling and tech minimise human-elephant conflicts #SCCSbng2014 http://t.co/hjYAg3n4C6 via @miss_sinha http://t.co/mti0LAxHcl
Soma and germ line- experiment proposes one scenario for origin of multicellularity- http://t.co/boagwEBEgE paper - http://t.co/Mmklb3rOAa
El origen de la multicelularidad: un delicado equilibrio entre células egoistas tramposas y células colaboradoras. http://t.co/5YzNYC88qc
El origen de la multicelularidad: un delicado equilibrio entre células egoistas tramposas y células colaboradoras. http://t.co/5YzNYC88qc
Life cycles, fitness decoupling and the evolution of multicellularity @cxdig http://t.co/nAb2nyMgbM #micro #dst
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/0wHUddxVnj
The evolution of multicellularity ‘cheating’ cells as a primitive germ line for multicellular life @nature http://t.co/p2FXbOTqF6
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/awc7LTChcl
Genetic profiling, technology to minimise human-elephant conflicts... http://t.co/p0iApCO6lv
細菌細胞は進化のために個体性を捨てる。 多細胞生物は単細胞の祖先生物から生じたが、その過程には協同作用が関与していたはず<- 集合体全体の適応度と個体の適応度の分離が必要,という実験結果。http://t.co/BrlAuBBSmY http://t.co/M7GaJGsXra
細菌細胞は進化のために個体性を捨てる。 多細胞生物は単細胞の祖先生物から生じたが、その過程には協同作用が関与していたはず<- 集合体全体の適応度と個体の適応度の分離が必要,という実験結果。http://t.co/BrlAuBBSmY http://t.co/M7GaJGsXra
細菌細胞は進化のために個体性を捨てる。 多細胞生物は単細胞の祖先生物から生じたが、その過程には協同作用が関与していたはず<- 集合体全体の適応度と個体の適応度の分離が必要,という実験結果。http://t.co/BrlAuBBSmY http://t.co/M7GaJGsXra
Nature:細菌細胞は進化のために個体性を捨てる. 多細胞生物は単細胞の祖先生物から生じたが、その過程には協同作用が関与していたはず。集合体全体の適応度と個体の適応度が隔離が必要だった。 http://t.co/52N8jPsJwV http://t.co/UCj4yqFMxN
Embracing "cheating" cells may propagate collective multi-cell bacterial phenotype http://t.co/byNccwUbBv #evolution #microbiology
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/k2Kh0g434J
Natureハイライト:「協同作用を行う集団内で必ず出現する破壊的な搾取型細胞の存在に対し…包含するか排除するかのどちらかによって存続する…蛍光菌…包含する集合体は複雑な多細胞生物の出現に必要とされる特徴によく似た特徴が見られた」 http://t.co/soA5GK6lx0
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/k2Kh0g434J
Nature ハイライト:細菌細胞は進化のために個体性を捨てる http://t.co/qs5lu62Ddx #進化生物学 #細菌
Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/B9HfM5tTIb
Nature ハイライト:細菌細胞は進化のために個体性を捨てる http://t.co/qs5lu62Ddx #進化生物学 #細菌
Role of mutS-hypermutation in phenotypic switching, enabling fitness decoupling in the evolution of multicellularity. http://t.co/wDi431CTkC
"Life cycles, fitness decoupling & the evolution of multicellularity" by @evokerr supported in part by @BEACON_Center http://t.co/Kgr3RrkVMa
This looks like a fun paper: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/AgqfN3FpYn
Paul Rainey in Nature: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/Sga5LsQrac @MasseyUni #NZLabLife
Multicellular life better adapted if cooperating cells embrace cheaters | AWC Invstgr Paul Rainey's study in Nature http://t.co/lJ81UsC03l
Multicellular life better adapted if cooperating cells embrace cheaters | AWC Invstgr Paul Rainey's study in Nature http://t.co/lJ81UsC03l
Paul Rainey in Nature: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/Sga5LsQrac @MasseyUni #NZLabLife
Paul Rainey in Nature: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/Sga5LsQrac @MasseyUni #NZLabLife
"Life cycles, fitness decoupling & the evolution of multicellularity" by @evokerr supported in part by @BEACON_Center http://t.co/Kgr3RrkVMa
Nature ハイライト:細菌細胞は進化のために個体性を捨てる | Nature Publishing Group: http://t.co/N6u9TxqF1Q
Paul Rainey in Nature: Life cycles, fitness decoupling and the evolution of multicellularity http://t.co/Sga5LsQrac @MasseyUni #NZLabLife
進化生物学: 細菌細胞は進化のために個体性を捨てる(Nature): 多細胞生物は単細胞の祖先生物から生じたが、その過程には協同作用が大いに関与していたに違いない。また、協同作用を行う集団内で必ず出現する破壊的な搾取型... http://t.co/kudIFxtrk2
Nature ハイライト:細菌細胞は進化のために個体性を捨てる http://t.co/qs5lu62Ddx #進化生物学 #細菌