RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
Very interesting article, and beautiful imaging! 😍
Quoting @Lo_Zanzi, it's all about location location location l Architecture of #myelopoiesis in bone marrow l Gorgeous multiplexed imaging of myeloid progenitors l A must read l Congrats to my dear friend @DanielL84885058 & team https://t.co/tjlqSc0uW
This is a beautiful and seriously interesting study - order amongst the chaos of emergency myelopoiesis! Can’t wait to see how this develops as other niches and immune-stromal interactions are uncovered 👏.
Scientists from @CincyChildrens show that in situ mapping 🗺️ identifies distinct vascular niches for myelopoiesis. Published in @nature https://t.co/L2iHeeydEP https://t.co/ci4UKCPpjS
RT @LeeGrimesLab: Beautiful work by @DanielL84885058 Dani Lucas lab. These gorgeous pictures of the bone marrow could be framed! @nsalomoni…
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…
Using fluorescent staining, this study validates the widely held belief that bone marrows have the most stunning morphology of any tissue (and is also a fresh take on something pathologists look at every day). #hemepath
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…
Spatial organization of myelopoiesis in the bone marrow. Total tour de force. Hard to overstate the impact of this work in the years to come. Fantastic achievement, Daniel and co.!!!
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 @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
RT @CincyChildrens: Congrats to Drs. Lucas, Salomonis @nsalomonis Way @babiesresearch Grimes @LeeGrimesLab and team. #science #cancer #orga…
RT @nsalomonis: Happy to share this exciting collaboration with Daniel Lucas @DanielL84885058 and Lee Grimes @LeeGrimesLab to define vascul…
What an awesome study. In situ imaging of cell fate decisions in physiological myelopoiesis and during the regenerative response to acute infection. Great work ... https://t.co/cNtAZJWlye
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
Cool cool!!!
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…
That is an impressive study and absolutely stellar use of tissue imaging 🤯👏https://t.co/YGbMNz13jg
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 @nsalomonis: Happy to share this exciting collaboration with Daniel Lucas @DanielL84885058 and Lee Grimes @LeeGrimesLab to define vascul…
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 @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
Happy to share this exciting collaboration with Daniel Lucas @DanielL84885058 and Lee Grimes @LeeGrimesLab to define vascular niches in myelopoiesis. https://t.co/XMuP8ouEjk
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…
What a cool story and beautiful images!!! Looks like a BM 🥳 party! Further sub-clustering BM sinusoids and arteries to specialized sub types is so demandable!!!
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 @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 @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…
In situ mapping identifies distinct vascular niches for myelopoiesis | Nature https://t.co/WDgPeMyuX8
Role of blood vessels in myelopoiesis! https://t.co/cRVQDhNCou
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
RT @Immunoscope: In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058…
In situ mapping identifies distinct vascular niches for myelopoiesis | #myelopoiesis #CSF1 | Daniel Lucas @DanielL84885058 @bluelightzjz @LeeGrimesLab @nsalomonis @babiesresearch @CincyChildrens | Nature @nature https://t.co/fiuCf8p7aR https://t.co/QqsKj2X
In situ mapping identifies distinct vascular niches for myelopoiesis @CincyChildrens @babiesresearch @jm_kinder @HeyBeyn @nsalomonis @LeeGrimesLab @DanielL84885058 https://t.co/ze23VbikVd
RT @LeeGrimesLab: Beautiful work by @DanielL84885058 Dani Lucas lab. These gorgeous pictures of the bone marrow could be framed! @nsalomoni…
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
RT @CincyChildrens: Congrats to Drs. Lucas, Salomonis @nsalomonis Way @babiesresearch Grimes @LeeGrimesLab and team. #science #cancer #orga…
RT @CincyChildrens: Imagine a day when labs can custom-produce blood components needed to help people with #leukemia or #multiplemyeloma. T…
I guess I can no longer complain that the hematopoietic field is all about FACS plots and no pretty images. These images are gorgeous! Congratulations to everyone involved!!!
In situ mapping identifies distinct vascular niches for myelopoiesis https://t.co/CSA2oMkILx
RT @DanielL84885058: Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is…
Happy to share a new paper from our team @Nature. We show that myeloid cell differentiation is not random. Instead, is spatially organized by unique vessels in the bone marrow. https://t.co/uwsTe75Oru More info in the thread below
Beautiful work by @DanielL84885058 Dani Lucas lab. These gorgeous pictures of the bone marrow could be framed! @nsalomonis and I had a great time helping. Read the story here https://t.co/w2SnzXrFx9
Our lab’s paper that was accepted Christmas Eve is now online! Hope everyone can really appreciate not only the biology, but how much work Jizhou and Qing Qing put into this tour de force. So fortunate to be apart of this story! https://t.co/Fodt8ab30Z