3/10 Bone Marrow ‘Map’ Opens Path to Organoid-like Blood Stem Cell Production https://t.co/V03vhUfkiF
Almost a year later, and it can never be overstated how hard the post docs (co-1st authors) worked to get this paper out, especially in a global pandemic. Truly fortunate to have contributed something to this. Jizhou has an offer for a faculty position, an
Zhang et al. from the Lucas Lab: In situ mapping identifies distinct vascular niches for myelopoiesis https://t.co/Yw26QqvlHq @HeyBeyn
Anatomy of cell differentiation in the bone marrow uncovered by in situ mapping. The imaging in this work is always so fascinating! Daniel Lucas Lab @LeeGrimesLab https://t.co/7nj12Ao5Nd
Brilliant work on HSC niche study!
New publication from #Qingqing_Wu in collaboration with #Doug_Engel, et al.! "In situ mapping identifies distinct vascular niches for myelopoiesis" has been published in #Nature! Read more: https://t.co/xwZwefVNTp #CDB #umichCDB #research https://t.co/j
In situ mapping identifies distinct vascular niches for myelopoiesis https://t.co/Vm05uYFL59
In situ mapping identifies distinct vascular niches for myelopoiesis | Nature Great work from Daniel Lucas lab contributed by Lee Grimes group https://t.co/GZV5qBVbgQ
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
RT @CincyInformatix: In situ mapping identifies distinct #vascular niches for #myelopoiesis Read the @nature article w/@CincyInformatix @P…
RT @SJMorrison_: What a spectacular paper - required reading in the niche field!! The thing I think is most important is the evidence for d…
In situ mapping identifies distinct #vascular niches for #myelopoiesis Read the @nature article w/@CincyInformatix @PrasathLab @nsalomonis: https://t.co/m0uTlA1zyf #imaging #ImmuneSystem #StemCell #differentiation
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @SJMorrison_: What a spectacular paper - required reading in the niche field!! The thing I think is most important is the evidence for d…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @SJMorrison_: What a spectacular paper - required reading in the niche field!! The thing I think is most important is the evidence for d…
RT @SJMorrison_: What a spectacular paper - required reading in the niche field!! The thing I think is most important is the evidence for d…
What a spectacular paper - required reading in the niche field!! The thing I think is most important is the evidence for distinct neighborhoods along the sinusoids that are specialized for the maintenance of different kinds of myeloid progenitors.
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
The bone marrow microenvironment is endlessly fascinating. In @nature: In situ mapping identifies distinct vascular niches for myelopoiesis https://t.co/bHLZatRA8F The images! 😍 https://t.co/Yht7AqivCR
RT @bethmcm: Using fluorescent staining, this study validates the widely held belief that bone marrows have the most stunning morphology of…
RT @NatureJapan: Nature ハイライト:骨髄における造血の視覚的地図 | Nature https://t.co/B0jd2Rip0M #幹細胞 #骨髄 #造血
場所と機能を視覚化することの重要性
幹細胞: 骨髄における造血の視覚的地図 (Nature Research) https://t.co/dGBnaA6h5p
RT @NatureJapan: Nature ハイライト:骨髄における造血の視覚的地図 | Nature https://t.co/B0jd2Rip0M #幹細胞 #骨髄 #造血
RT @NatureJapan: Nature ハイライト:骨髄における造血の視覚的地図 | Nature https://t.co/B0jd2Rip0M #幹細胞 #骨髄 #造血
Nature ハイライト:骨髄における造血の視覚的地図 | Nature https://t.co/B0jd2Rip0M #幹細胞 #骨髄 #造血
マウスの胸骨を骨髄ごと染色して、血球細胞が骨髄中でどう分布してるかを調べたという実験をしてるみたい。 そんな染色のやり方があるんだねぇ…… 見た感じでは前駆細胞とかは辺縁に散在してるのかな?皮膚の基底細胞みたいに動かないオリジナルがあったりするのかなぁ。 https://t.co/5IjPLe7jJo
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
Decir que estoy impresionada es poco...
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
Beautiful paper! Congrats Daniel!
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
Whoa ... Spatial segregation of myelopoiesis ! And a real microscopic tour de force
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
RT @nature: Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular…
Research published in Nature offers a visual map of myelopoiesis in the bone marrow, revealing compartmentalization of cellular decisions along the hematopoietic lineage tree. https://t.co/ToaXkD7B8K https://t.co/XMCtnKtvgx
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
From @nature - In situ mapping identifies distinct vascular niches for myelopoiesis https://t.co/dBZXRCilIW #bwfpath
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
One more impressive study on my 'to read list' https://t.co/VwMrKyMwrD
In situ mapping identifies distinct vascular niches for myelopoiesis. https://t.co/msG9qeX6pb
RT @IdoAmitLab: In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/Nr6b8Bbhks
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @HeyBeyn: Our lab’s paper that was accepted Christmas Eve is now online! Hope everyone can really appreciate not only the biology, but h…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @IdoAmitLab: In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/Nr6b8Bbhks
RT @HellmutAugustin: Intra-organotypic angiodiversity driving functional specialization: Distinct vascular niches in the bone marrow drivin…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @leeat_keren: Beautiful!
RT @IdoAmitLab: In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/Nr6b8Bbhks
Very very interesting work: In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/JTGDKADGlG
In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/Nr6b8Bbhks
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
RT @HellmutAugustin: Intra-organotypic angiodiversity driving functional specialization: Distinct vascular niches in the bone marrow drivin…