RT @DrYohanJohn: "Only a modest fraction of the genes identified as ‘markers’ of specific interneuron subtypes in any one species had this…
"Only a modest fraction of the genes identified as ‘markers’ of specific interneuron subtypes in any one species had this property in another species." The species should always be mentioned up front in experimental studies and books that summarize them.
Innovations present in the primate interneuron repertoire. https://t.co/CGqNxCA0zX
@yanezlang @ScienceMagazine I'm glad you found the Perspective useful! Regarding the abundance of different interneuron subtypes, there is some variation between mouse and human. Please check out https://t.co/HCGPOIsVcY and https://t.co/fELj2Gd0yL.
RT @MaxNigro_Neuro: @JulioMTNeuro Take a look at this from @fennamk https://t.co/J6nVevYMNa
RT @MaxNigro_Neuro: @JulioMTNeuro Take a look at this from @fennamk https://t.co/J6nVevYMNa
@JulioMTNeuro Take a look at this from @fennamk https://t.co/J6nVevYMNa
RT @RobotRrid: RRIDs were included in the Nature paper "Innovations present in the primate interneuron rep…" (https://t.co/OixKQRf0OD). RRI…
RRIDs were included in the Nature paper "Innovations present in the primate interneuron rep…" (https://t.co/OixKQRf0OD). RRIDs like this improve reproducibility in scientific research. #RRID #OpenScience
As a researcher on the #evolution of the #striatum in #primates, I am fascinated by @fennamk's recent results: An abundant striatal #interneuron type with no molecularly homologous counterpart in mice or ferrets. Such a fascinating finding! Read more 👇🏻
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
There is a whole class of interneurons in humans and primates striatum that does not exist in mice or ferrets https://t.co/o2tmzhQAXU
Nature: Innovations present in the primate interneuron repertoire https://t.co/jVV3NiUJK2 Nature:发现一种新类型的中间神经元仅存在于灵长类动物大脑中 专业评述:发现脑新γ-氨基丁酸神经元。有利于研究和防治自闭症、精神分裂症、亨廷顿舞蹈症(与老年痴呆症、渐冻症、帕金森症同属神经退行病)
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @LabTakei: 「霊長類と齧歯類が進化の過程で分岐する中で、遺伝子と細胞タイプの特性がどのように変化し、あるいは保存されてきたのたかを理解することは、モデル動物系の設計や実験結果の解釈についての指針を示し、特にヒトの脳疾患の研究に役立つと考えられる。」(1/2) h…
RT @LabTakei: 「霊長類と齧歯類が進化の過程で分岐する中で、遺伝子と細胞タイプの特性がどのように変化し、あるいは保存されてきたのたかを理解することは、モデル動物系の設計や実験結果の解釈についての指針を示し、特にヒトの脳疾患の研究に役立つと考えられる。」(1/2) h…
RT @LabTakei: 「霊長類と齧歯類が進化の過程で分岐する中で、遺伝子と細胞タイプの特性がどのように変化し、あるいは保存されてきたのたかを理解することは、モデル動物系の設計や実験結果の解釈についての指針を示し、特にヒトの脳疾患の研究に役立つと考えられる。」(1/2) h…
「霊長類と齧歯類が進化の過程で分岐する中で、遺伝子と細胞タイプの特性がどのように変化し、あるいは保存されてきたのたかを理解することは、モデル動物系の設計や実験結果の解釈についての指針を示し、特にヒトの脳疾患の研究に役立つと考えられる。」(1/2)
「相同な介在ニューロンのタイプは、フェレットとマウスと霊長類の間でその数やRNA発現に差異が見られたが、霊長類3種の間ではそうした差異はごくわずかだった。また、コモンマーモセットとヒトの線条体に見られる新規な介在ニューロンなど、霊長類に特異的な特徴も複数見いだされた。」(1/2)
Nature ハイライト:霊長類の介在ニューロンレパートリーに見られる新機軸 | Nature | Nature Research: https://t.co/Vh90pjthx0
Innovations present in the primate interneuron repertoire https://t.co/hKQlEmg7z6
Nature ハイライト:霊長類の介在ニューロンレパートリーに見られる新機軸 | Nature | Nature Research https://t.co/37DYN5jwTU
RT @NatureJapan: Nature ハイライト:霊長類の介在ニューロンレパートリーに見られる新機軸 | Nature https://t.co/GhEdfWJEKz #分子生物学 #霊長類 #ニューロン
RT @NatureJapan: Nature ハイライト:霊長類の介在ニューロンレパートリーに見られる新機軸 | Nature https://t.co/GhEdfWJEKz #分子生物学 #霊長類 #ニューロン
Nature ハイライト:霊長類の介在ニューロンレパートリーに見られる新機軸 | Nature https://t.co/GhEdfWJEKz #分子生物学 #霊長類 #ニューロン
RT @NatureKorea: 네이처 하이라이트:영장류 연합뉴런 레퍼토리(Interneuron repertoire)의 혁신 https://t.co/7cqUqIXagp
네이처 하이라이트:영장류 연합뉴런 레퍼토리(Interneuron repertoire)의 혁신 https://t.co/7cqUqIXagp
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
Innovations present in the primate interneuron repertoire null https://t.co/iUMX19H6Kg #DTHSTR
Innovations present in the primate interneuron repertoire https://t.co/FHsRELHwqt
RT @JulioMTNeuro: Not all interneurons were created equal across species. primates may have gotten an upgrade in their interneuron repertoi…
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
Article Published: 30 September 2020 Innovations present in the primate interneuron repertoire Fenna M. Krienen, Melissa Goldman, Steven A. McCarroll Nature (2020) https://t.co/DRx5UMpyuu
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
RT @Bio_stations: どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https:/…
どのように私たちは"ヒトらしい"脳を獲得してきたのか? マウス、フェレット、サル、ヒトの抑制性ニューロンでシングル核RNAseq。進化に伴う新たな細胞種の獲得や遺伝子発現の多様化などを見ている。 発生起源とかも気になるなぁ https://t.co/tKOIIFYoH8
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @LongDingPA: Intriguing: "an abundant striatal interneuron type in primates that had no molecularly homologous counterpart in mice or f…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @your_arpy: Gong bong! @fennamk, @s_mccarroll, large-scale systematic scRNAseq, and a starring cast of interneurons across mice, ferrets…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
Innovations present in the primate interneuron repertoire https://t.co/l9HLfcASke https://t.co/7fC27pQDCC
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
RT @circuit_logic: Huge congrats to Fenna and the team! Seriously, there are so many amazing collaborations going on right now between our…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @JulioMTNeuro: Not all interneurons were created equal across species. primates may have gotten an upgrade in their interneuron repertoi…
RT @eleldai: ヒトの認知機能は大脳新皮質の進化で獲得したと考えられているが、5種の哺乳類で抑制性の神経細胞のタイプをsn-RNAseqで比較すると、意外にも脊椎動物で古くからある線条体で、霊長類にしかない細胞(TAC3+/VIP+)が見つかり、皮質下でのイノベーショ…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @PascaStanford: Very exciting discoveries! Congratulations @s_mccarroll @GordFishell & @guoping_feng
RT @your_arpy: Gong bong! @fennamk, @s_mccarroll, large-scale systematic scRNAseq, and a starring cast of interneurons across mice, ferrets…
RT @JulioMTNeuro: Not all interneurons were created equal across species. primates may have gotten an upgrade in their interneuron repertoi…
RT @bogglerapture: Innovations present in the primate interneuron repertoire | Nature. Congrats @fennamk !!!! So excited that this is out…
RT @MaxNigro_Neuro: Comparative analysis of interneuron diversity by @fennamk @s_mccarroll @GordFishell @JDimidschstein @RudyNeuro…
@TurrigianoLab Well they are going to be *really* happy bc I'm sure folx will find more and more human and primate specific neurons as they keep exploring https://t.co/yoAD1bxXoR
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @neuroliege: Innovations present in the primate interneuron repertoire | Nature https://t.co/m7dYlXQnxt
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @foxdotdrew: Primates are not just large mice. A team lead by @fennamk discover a new striatal cell-type that is found in primates, but…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…
RT @JulioMTNeuro: Not all interneurons were created equal across species. primates may have gotten an upgrade in their interneuron repertoi…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @MaxNigro_Neuro: Comparative analysis of interneuron diversity by @fennamk @s_mccarroll @GordFishell @JDimidschstein @RudyNeuro…
RT @s_mccarroll: Remarkable evolutionary innovations by primates. My favorite: a third of the interneurons in the striatum are a novel type…
RT @JulioMTNeuro: Not all interneurons were created equal across species. primates may have gotten an upgrade in their interneuron repertoi…
Very exciting discoveries! Congratulations @s_mccarroll @GordFishell & @guoping_feng
comparative biology is my favorite type of biology
Primates are not just large mice. A team lead by @fennamk discover a new striatal cell-type that is found in primates, but not mice. This suggests important species differences that extend to putatively evolutionarily conserved sub-cortical regions. https
RT @SherifMorris: Krienan et al., present one of the most comprehensive comparisons of interneurons (inhibitory neurons within the CNS) acr…
RT @fennamk: taking a break from biennial tweets about sports to celebrate our paper, out today! thanks to my delightful crew of collabora…