RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
Find the original research paper here https://t.co/59QLujuzvo https://t.co/JMXpZsiWi1
RT @NatureBiotech: Minimized 531 kbp synthetic M. genitalium genome of 473 genes; 138 remain 'unknown' in function https://t.co/SbHVTVgrNM…
Design and synthesis of a minimal bacterial genome https://t.co/BngGlBEVkq
90% of Mycoplasma genes essential (& 50% of entire genome). Will the E. coli orthologs also produce a viable cell? https://t.co/qd6kOsdsoF
Design and synthesis of a minimal bacterial genome https://t.co/pkqri1qmsS
Design and synthesis of a minimal bacterial genome | Science https://t.co/srpXujsUGL
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @aaas: Bacterial genome containing only the genes necessary for life built by team led by @JCVenter https://t.co/bSM6E54Gvn https://t.co…
RT @edge: "Design and synthesis of a minimal bacterial genome" @JCVenter drops the next shoe in artificial life in "Science". https://t.co/…
Design and synthesis of a minimal bacterial genome https://t.co/ur0ElmyLIs https://t.co/CM4pvjhzfc
RT @NatureBiotech: Minimized 531 kbp synthetic M. genitalium genome of 473 genes; 138 remain 'unknown' in function https://t.co/SbHVTVgrNM…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
What a feat! Take a bow @JCVenter! Design & synthesis of minimal bacterial genome https://t.co/ZbDbR59mSG #SynBio https://t.co/dtmcBwOvV7
RT @NatureBiotech: Minimized 531 kbp synthetic M. genitalium genome of 473 genes; 138 remain 'unknown' in function https://t.co/SbHVTVgrNM …
Design and synthesis of a minimal bacterial genome https://t.co/GLztX5MHCs
Minimized 531 kbp synthetic M. genitalium genome of 473 genes; 138 remain 'unknown' in function https://t.co/SbHVTVgrNM #NBThighlight
RT @linus_aniar: Design and synthesis of a minimal bacterial genome https://t.co/dpcSYkXMXM
@SlavaVK @AAmbainis @nrostoks #CRISP nav izmantots, katrs mutantais M.genitalum genoms sintezēts ķīmiski de novo. https://t.co/ucFz8hXC2I
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
Man Made Life ?? Biology optimises and achieves longevity and survivability. When man builds life he optimises... https://t.co/kqaNRmqvxE
#science Design and synthesis of a minimal bacterial genome https://t.co/UkamNYBSWh https://t.co/OuyeknNCZM
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
RT @ARangarajan1972: Find of the year for me. What is the minimum number of genes required to sustain a living cell? Answer: Just 473. http…
最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/vtTgSzAbXR
O avanço é enorme. Embora o desconhecido provoque arrepios. Veja na Science a Síntese da "minimal bacterial genome" https://t.co/puQaeB0ExN
RT @vscooper: One of the more interesting points in the #minimalgenome paper is the large # of unpredicted synthetic lethals. https://t.co/…
RT @vscooper: One of the more interesting points in the #minimalgenome paper is the large # of unpredicted synthetic lethals. https://t.co/…
Design and synthesis of a minimal bacterial genome https://t.co/EkSX1SyYNe
5+ decades context https://t.co/jOld1Fl5wh for @JCVenter's 'fewest genes' https://t.co/FiYDkx5FSH @sciencemagazine https://t.co/qx8h1COKSU
Craig Venter, the man who sequenced the human genome, has invented a synthetic life form: https://t.co/IHDgvZECLy
A goal in biology is to understand the molecular and biological function of every gene in a cell. One way to... https://t.co/CtSLLgoj1z
Design and synthesis of a minimal bacterial genome https://t.co/rBQwB5iuxu
Design and synthesis of a minimal bacterial genome https://t.co/6bk44Y3MCH Mutations of some proteins don’t always lead to health problems
Un equipo internacional de investigadores sintetiza una célula con el genoma mínimo necesario para la vida https://t.co/ZdDWT1bXHu
RT @mgenomica: Un equipo internacional de investigadores sintetiza una célula con el genoma mínimo necesario para la vida https://t.co/2P7x…
Viele Gene bislang ohne bekannte Funktion im kleinsten bakteriellen Genom. https://t.co/YVzlYTDPHt #Genom #SyntheticBiology @sciencemagazine
#CraigVenter an inspirational scientist https://t.co/uOWA4hA6SE https://t.co/GKNst3uSFd
Minimal synthetics genome highlights the importance of "redundant" genes https://t.co/5hSt789Mnb
RT @mgenomica: Un equipo internacional de investigadores sintetiza una célula con el genoma mínimo necesario para la vida https://t.co/2P7x…
RT @mgenomica: Un equipo internacional de investigadores sintetiza una célula con el genoma mínimo necesario para la vida https://t.co/2P7x…
Un equipo internacional de investigadores sintetiza una célula con el genoma mínimo necesario para la vida https://t.co/2P7x7xGIIE
Design and synthesis of a minimal bacterial genome #newlife https://t.co/Rk0lsmHXat
RT @tschwarzromond: #venters synthetic bug: life with only 473 genes, 149 of unknown function! Break the code! https://t.co/dymTR7e9pg http…
Design and synthesis of a minimal bacterial genome https://t.co/y5ccn60Egf - organism has 531 kb (473 genes) genome
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
#venters synthetic bug: life with only 473 genes, 149 of unknown function! Break the code! https://t.co/dymTR7e9pg https://t.co/jsO3ZCXmDe
Design and creation of Life, programing new bacteries and what else? https://t.co/X2GxNqEf2r
Design and synthesis of a minimal bacterial genome @sciencemagazine https://t.co/ePfSIjegN6
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
Бог умер https://t.co/4CQXEgItvK .
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
RT @aaas: Bacterial genome containing only the genes necessary for life built by team led by @JCVenter https://t.co/bSM6E54Gvn https://t.co…
Ed Yong from The Atlantic writes about it here:... https://t.co/2ZQdA1pBev
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
RT @aaas: Bacterial genome containing only the genes necessary for life built by team led by @JCVenter https://t.co/bSM6E54Gvn https://t.co…
RT @sciencemagazine: How did @JCVenter and colleagues synthesize the minimal bacterial genome? Read the research: https://t.co/6GPMT1DbtQ h…
Design and synthesis of a minimal bacterial genome https://t.co/bv05G3aP4J
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
Design and synthesis of a minimal bacterial genome https://t.co/d2EFI2fW8m
Craig Venter et al. schrumpften Bakterium zur 'Minimalzelle' mit 473 Genen; von 149 (!) kennt man keine Funktion https://t.co/OAdaFpACW5
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/vtTgSzAbXR
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
RT @fneurociencias: Wow! Design and synthesis of a new living being. Let's think about life and about the real Self. #neuroadvaita https://…
Design and synthesis of a minimal bacterial genome https://t.co/DeVX9OS3Qa
RT @scipak: JCVI Syn3.0 is the smallest, simplest self-replicating cell known @JCVenter @JCVenterInst https://t.co/yDXzNaqhoO
JCVI Syn3.0 is the smallest, simplest self-replicating cell known @JCVenter @JCVenterInst https://t.co/yDXzNaqhoO
RT @Berci: Design and synthesis of a minimal bacterial genome https://t.co/gzM3sqaqek #digitalhealth https://t.co/bI7gqZ4i55
RT @Berci: Design and synthesis of a minimal bacterial genome https://t.co/gzM3sqaqek #digitalhealth https://t.co/bI7gqZ4i55
RT @Berci: Design and synthesis of a minimal bacterial genome https://t.co/gzM3sqaqek #digitalhealth https://t.co/bI7gqZ4i55
Design and synthesis of a minimal bacterial genome https://t.co/gzM3sqaqek #digitalhealth https://t.co/bI7gqZ4i55
31 percent of the minimal genome remains a mystery ... https://t.co/ul3WlwxYxQ #genomics @humanlongevity
Design and synthesis of a minimal bacterial genome https://t.co/cpT5SCER7u
RT @ManelEsteller: The amazing @JCVenter does it again: building a living organism with the smallest genome, article @sciencemagazine https…
Design and synthesis of a minimal bacterial genome https://t.co/fkMaVp3OZf
RT @Ajwhall: JCVI-syn3.0, just 473 genes, 0.5Mb and alive! Still 149 genes of unknown function OMG? https://t.co/7JM2aIdawW @LivGeneMill @S…
RT @Ajwhall: JCVI-syn3.0, just 473 genes, 0.5Mb and alive! Still 149 genes of unknown function OMG? https://t.co/7JM2aIdawW @LivGeneMill @S…
RT @ManelEsteller: The amazing @JCVenter does it again: building a living organism with the smallest genome, article @sciencemagazine https…
RT @ManelEsteller: The amazing @JCVenter does it again: building a living organism with the smallest genome, article @sciencemagazine https…
I hate genes of unknown function, but here are 149 baddest-of-the-bad essential genes of unknown function. #genomics https://t.co/zKggF1AsT9
#NEWS Researchers create cell with smaller genome than any natural autonomously replicating cell https://t.co/xJEHOmp2Xm #biology #genetics
#NEWS Researchers create cell with smaller genome than any natural autonomously replicating cell https://t.co/OpoSZBsKSK #biology #genetics
RT @ManelEsteller: The amazing @JCVenter does it again: building a living organism with the smallest genome, article @sciencemagazine https…
The amazing @JCVenter does it again: building a living organism with the smallest genome, article @sciencemagazine https://t.co/gLO3xeyWJ7
А вот пока мы тут всякую фигню обсуждаем, учёные (не британские) впервые создали живое из неживого. Бактерию... https://t.co/w1BZP7EM3H
Design and synthesis of a minimal bacterial genome https://t.co/HEWHkaQawK
A challenge in genetic engineering is that you cannot isolate components to restrict unexpected interactions. https://t.co/lZ210Eb23S
RT @OrenoReSource: 最小限のゲノムを持つ細菌を作製 AFP https://t.co/NtCEh1me6d マイコプラズマの1Mbのゲノムを531kb、必須473遺伝子まで削減。うち149 遺伝子は機能未知(Science原著)→ https://t.co/…
473個の遺伝子数で「全体の3分の2ほどの遺伝子の機能は未解明」元論文 https://t.co/O4gvgGWasp /最小限のゲノムを持つ細菌を作製、ヒトゲノム解読の米科学者ら AFPBB News https://t.co/RT6CRz7TCI @afpbbcom