Featured
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Article
| Open AccessRegulation of Myc transcription by an enhancer cluster dedicated to pluripotency and early embryonic expression
MYC regulates numerous genes involved in cell growth and proliferation. Here, Li-Bao et al. study the DNA regions that regulate Myc transcription in early mouse embryos and pluripotent stem cells. They report a specific region with independent modules dedicated to discrete temporal and spatial phases of Myc expression.
- Lin Li-Bao
- , Covadonga Díaz-Díaz
- & Miguel Torres
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Article
| Open AccessMultiplexed bulk and single-cell RNA-seq hybrid enables cost-efficient disease modeling with chimeric organoids
IPSC-derived organoids model diseases. Multiplexed coculture and demultiplexing natural genetic barcodes aid in studying genetic effects. Here, authors introduce Vireo-bulk to deconvolve bulk RNA-seq data, quantify donor abundance and identify differentially expressed genes.
- Chen Cheng
- , Gang Wang
- & Jin Zhang
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Article
| Open AccessARTseq-FISH reveals position-dependent differences in gene expression of micropatterned mESCs
Hu et al. describe ARTseq-FISH, a spatial omics method that enables multiplexed detection of mRNAs, proteins and phospho-proteins simultaneously and at the same resolution. The authors investigate gene expression changes in a heterogenous colony of micropatterned mESCs.
- Xinyu Hu
- , Bob van Sluijs
- & Maike M. K. Hansen
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Article
| Open AccessDeterminants of mosaic chromosomal alteration fitness
Here, the authors use passenger mutations to quantify expansion rate in ~6,000 people with mosaic chromosomal alterations in the NHLBI TOPMed cohort, finding associations between growth rate and blood counts along with germline genetic modulators of growth rate.
- Yash Pershad
- , Taralynn Mack
- & Alexander G. Bick
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Article
| Open AccessTargeting adipocyte ESRRA promotes osteogenesis and vascular formation in adipocyte-rich bone marrow
Excessive bone marrow adipocytes accumulation is involved in bone deterioration. Here, the authors show that adipocyte ESRRA abrogation promotes osteogenesis and vascular formation in adipocyte-rich bone marrow via oppositely regulating the expression and secretion of leptin and SPP1.
- Tongling Huang
- , Zhaocheng Lu
- & Min Guan
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Article
| Open AccessA human neural crest model reveals the developmental impact of neuroblastoma-associated chromosomal aberrations
Copy number alterations in stem cells impair neural crest differentiation and set the stage for neuroblastoma-like traits and tumours. This study hints at early tumourigenesis mechanisms and finds developmental gene signatures linked to prognosis.
- Ingrid M. Saldana-Guerrero
- , Luis F. Montano-Gutierrez
- & Florian Halbritter
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Article
| Open AccessAcinar to β-like cell conversion through inhibition of focal adhesion kinase
A cure for diabetes could entail an effective cell replacement therapy through generation of new insulinproducing cells. In this study, we show that inhibition of focal adhesion kinase activity results in transdifferentiation of a subset of peri-islet acinar cells into functional insulin producing β-like cells.
- Shakti Dahiya
- , Mohamed Saleh
- & Farzad Esni
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Article
| Open AccessSkin graft with dermis and appendages generated in vivo by cell competition
Skin substitutes generated by tissue engineering have limited properties. Here, authors established niche encroachment method. Cell competition enabled skin organogenesis from allogeneic and xenogeneic stem cells on p63 knockout embryos, resulting in a complete skin graft on dermis with hair.
- Hisato Nagano
- , Naoaki Mizuno
- & Hiromitsu Nakauchi
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Article
| Open AccessA MTA2-SATB2 chromatin complex restrains colonic plasticity toward small intestine by retaining HNF4A at colonic chromatin
The large intestine mucosa possesses a surprising plasticity to switch on small intestine genes. Here, Wei G. et al. show that a chromatin complex composed of SATB2, MTA2 and HNF4A regulates this tissue plasticity in the adult gut.
- Wei Gu
- , Xiaofeng Huang
- & Qiao Zhou
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Article
| Open AccessLinear interaction between replication and transcription shapes DNA break dynamics at recurrent DNA break Clusters
In neural progenitor cells, recurrent DNA break clusters (RDCs) occur to genes crucial for brain function. Here the authors find that most RDCs emerge at long-traveling unidirectional replication forks, and often unrelated to R-loops.
- Lorenzo Corazzi
- , Vivien S. Ionasz
- & Pei-Chi Wei
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Article
| Open AccessDifferentiation shifts from a reversible to an irreversible heterochromatin state at the DM1 locus
Gene-editing at the DM1 mutant locus revealed a fundamental difference between undifferentiated and differentiated cell states: abnormal epigenetic modifications cannot be repaired after differentiation.
- Tayma Handal
- , Sarah Juster
- & Rachel Eiges
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Article
| Open AccessAnnelid adult cell type diversity and their pluripotent cellular origins
The cellular atlas of Pristina leidyi reveals cell type diversity in adult annelids by single cell transcriptomics, discovering several novel cell types and suggesting a pluripotent stem cell signature associated with adult cell type differentiation
- Patricia Álvarez-Campos
- , Helena García-Castro
- & Jordi Solana
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Article
| Open AccessPRPF8-mediated dysregulation of hBrr2 helicase disrupts human spliceosome kinetics and 5´-splice-site selection causing tissue-specific defects
PRPF8 is a hotspot for mutations causing retinitis pigmentosa-type 13. Here the authors generated PRPF8 patient-specific retinal cells, demonstrating an important role for this splicing factor in spliceosome kinetics and 5’ splice site selection.
- Robert Atkinson
- , Maria Georgiou
- & Majlinda Lako
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Article
| Open AccessDecoding spatiotemporal transcriptional dynamics and epithelial fibroblast crosstalk during gastroesophageal junction development through single cell analysis
Elucidating the gastroesophageal junction’s development is key to comprehending its disease susceptibility. Here, the authors mapped its development, uncovering cellular diversity and interaction dynamics using advanced spatiotemporal single-cell analysis.
- Naveen Kumar
- , Pon Ganish Prakash
- & Cindrilla Chumduri
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Article
| Open AccessDHX9 maintains epithelial homeostasis by restraining R-loop-mediated genomic instability in intestinal stem cells
Inflammatory bowel disease (IBD) is featured with epithelial barrier dysfunction, however, the underlying mechanism is less clear. Here, the authors show that DHX9 deficiency in intestinal stem cells (ISCs) induces accumulation of abnormal R-loops and subsequent genomic instability, leading to impairment of ISCs and development of IBD.
- Xingxing Ren
- , Qiuyuan Liu
- & Shu Zhu
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Article
| Open AccessSOXC are critical regulators of adult bone mass
Angelozzi et al. uncover key mechanisms involved in physiological and pathological bone mass remodeling by showing that SOXC transcription factors regulate the bone formation and resorption balance via critical roles in LepR+ mesenchymal stem cells.
- Marco Angelozzi
- , Anirudha Karvande
- & Véronique Lefebvre
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Article
| Open AccessMesenchymal glioma stem cells trigger vasectasia—distinct neovascularization process stimulated by extracellular vesicles carrying EGFR
Vasectasia is a newly described, non-angiogenic form of blood vessel formation induced by mesenchymal glioblastoma cells, and driven by endothelial cell responses to extracellular vesicles containing oncogenic EGFR.
- Cristiana Spinelli
- , Lata Adnani
- & Janusz Rak
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Article
| Open AccessThe PTM profiling of CTCF reveals the regulation of 3D chromatin structure by O-GlcNAcylation
CTCF, which is known to play critical role in chromatin structure, undergoes post-translational modifications (PTMs). In this research, O-GlcNAcylation was found to inhibit CTCF binding, impacting 3D chromatin structure, gene expression and cellular development.
- Xiuxiao Tang
- , Pengguihang Zeng
- & Junjun Ding
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Article
| Open AccessCondensin-mediated restriction of retrotransposable elements facilitates brain development in Drosophila melanogaster
Mutations in condensin subunits cause microcephaly, but the underlying molecular mechanisms remain elusive. Here, the authors show that unrestricted retrotransposable element activity impairs brain development in condensin insufficient organisms.
- Bert I. Crawford
- , Mary Jo Talley
- & Michelle S. Longworth
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Article
| Open AccessCell-fate conversion of intestinal cells in adult Drosophila midgut by depleting a single transcription factor
The mechanisms underlying cell plasticity remain poorly understood. Here, Guo et.al discover that intestinal cells in the fly gut can alter their fates through the loss of a single gene, and identify several molecular barriers to cell reprogramming.
- Xingting Guo
- , Chenhui Wang
- & Rongwen Xi
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Article
| Open AccessA let-7 microRNA-RALB axis links the immune properties of iPSC-derived megakaryocytes with platelet producibility
The authors pioneered the iPSC-derived platelet transfusion in human. Here they employ miRNA switches, identifying RALB as a determinant of immune megakaryocytes and a marker for quality control, advancing standardization of iPSC-platelet production.
- Si Jing Chen
- , Kazuya Hashimoto
- & Koji Eto
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Article
| Open AccessVersatile human cardiac tissues engineered with perfusable heart extracellular microenvironment for biomedical applications
The application of engineered cardiac tissues is limited due to their immaturity and lack of functionality. Here, the authors develop an integrated culture platform featuring heart extracellular matrix cultured in a microfluidic chip to facilitate cardiac tissue development for versatile biomedical applications.
- Sungjin Min
- , Suran Kim
- & Seung-Woo Cho
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Article
| Open Accessp53 regulates diverse tissue-specific outcomes to endogenous DNA damage in mice
DNA repair deficiency can cause tissue-specific phenotypes in humans and mice. Here, the authors find that p53 drives different, but tissue-specific responses despite the same defect in DNA repair. p53 drives blood stem cell loss but restrains liver polyploidisation in the absence of Ercc1.
- Ross J. Hill
- , Nazareno Bona
- & Gerry P. Crossan
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Article
| Open AccessHeterozygous missense variant in GLI2 impairs human endocrine pancreas development
Mutations in the Hedgehog signaling have not been previously associated to diabetes. Here, authors identify a missense variant of GLI2 in a family with early-onset diabetes and report an essential role of this gene during human iPSC-based pancreatic differentiation.
- Laura M. Mueller
- , Abigail Isaacson
- & Francesca M. Spagnoli
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Article
| Open AccessAutophagy regulates the maturation of hematopoietic precursors in the embryo
The production of hematopoietic stem cells in the embryo is precisely regulated by various intrinsic and extrinsic factors. Here, the authors find that autophagy is involved in the maturation of hematopoietic precursors through nucleolin pathways.
- Yumin Liu
- , Linjuan Shi
- & Zhuan Li
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Article
| Open AccessCharting cellular differentiation trajectories with Ricci flow
When stem cells develop into tissues intracellular signalling is rewired, errors in this process lead to cancer. Here, authors applied tools from differential geometry made by Albert Einstein’s General Relativity to understand and predict biological network rewiring in health and disease.
- Anthony Baptista
- , Ben D. MacArthur
- & Christopher R. S. Banerji
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Article
| Open AccessSingle-cell division tracing and transcriptomics reveal cell types and differentiation paths in the regenerating lung
This study uses single-cell transcriptomics to examine how lung cells respond to targeted damage. The authors employ genetically modified mouse models and cell sorting to enrich for rare, actively dividing cells, revealing cell types/states and alternative differentiation paths.
- Leila R. Martins
- , Lina Sieverling
- & Claudia Scholl
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Article
| Open AccessStem Leydig cells support macrophage immunological homeostasis through mitochondrial transfer in mice
The role of stem Leydig cells in restoration of male fertility after acute injury is not clear. In an acute injury mouse model of testicular torsion, the authors show that Stem Leydig cells can restore testicular immunological homeostasis by mitochondria transfer to macrophages in a TRPM7-mediated manner.
- Ani Chi
- , Bicheng Yang
- & Min Zhang
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Article
| Open AccessPolycomb-mediated silencing of miR-8 is required for maintenance of intestinal stemness in Drosophila melanogaster
Intestinal physiology requires a balance between stem cell self-renewal and differentiation. Here, the authors show that this balance is regulated epigenetically by a dynamic relationship between the evolutionarily conserved PRC2, miR-8 and Notch signaling.
- Zoe Veneti
- , Virginia Fasoulaki
- & Aristides G. Eliopoulos
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Article
| Open AccessDeregulated protein homeostasis constrains fetal hematopoietic stem cell pool expansion in Fanconi anemia
In this manuscript, the authors show deregulated protein synthesis as a novel, noncanonical defect in Fanconi Anemia. The observed deficits reflect the impact of proteostasis during fetal hematopoietic stem cell expansion and define the origins of hematopoietic failure in this disorder.
- Narasaiah Kovuru
- , Makiko Mochizuki-Kashio
- & Peter Kurre
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Perspective
| Open AccessCellular reprogramming as a tool to model human aging in a dish
The development of human cellular models of aging that surpass the limitations of animal models of aging is urgent. Here, the authors explore the opportunities and limitations of cellular reprogramming to create reliable aging in vitro models and their potential for the discovery of anti-aging compounds.
- Patricia R. Pitrez
- , Luis M. Monteiro
- & Lino Ferreira
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Article
| Open AccessDevelopment of pathophysiologically relevant models of sickle cell disease and β-thalassemia for therapeutic studies
Sickle cell disease (SCD) and β-thalassemia (BT) are globally prevalent inherited blood disorders but, despite extensive research, no ex vivo system exists for SCD and BT. Here, the authors generate pathophysiologically relevant erythroid progenitor models of SCD and BT.
- Pragya Gupta
- , Sangam Giri Goswami
- & Sivaprakash Ramalingam
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Article
| Open AccessThe emergence of circadian timekeeping in the intestine
Circadian rhythms are present in cells throughout the body but how these develop is poorly understood. Here, using Drosophila genetics and single cell analysis, authors find that the intestinal clock emerges after development is complete, and that differentiation disrupts its function.
- Kathyani Parasram
- , Amy Zuccato
- & Phillip Karpowicz
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Article
| Open AccessQuiescence enables unrestricted cell fate in naive embryonic stem cells
Stem cell quiescence is generally considered as an inactive state with poised potential. Here, Khoa et al. find that quiescent embryonic stem cells actively maintain a dynamic reservoir of cells with unrestricted cell fate that converges on S-adenosylmethionine and H3K27me3 status.
- Le Tran Phuc Khoa
- , Wentao Yang
- & Yali Dou
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Article
| Open AccessComplex regulatory networks influence pluripotent cell state transitions in human iPSCs
Stem cells exist in vitro in a spectrum of interconvertible pluripotent states. Here, authors show that pluripotency and self-renewal processes have a high level of regulatory complexity and suggest that genetic factors contribute to cell state transitions in human iPSC lines.
- Timothy D. Arthur
- , Jennifer P. Nguyen
- & Kelly A. Frazer
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Article
| Open AccessCis inhibition of NOTCH1 through JAGGED1 sustains embryonic hematopoietic stem cell fate
Notch signaling is critical for HSC emergence. Here, the authors identify a sub-set of hemogenic endothelial cells with high Notch activity that it is gradually shut down through cis inhibition of NOTCH1 by JAG1, and report that this process sustains HSC.
- Roshana Thambyrajah
- , Maria Maqueda
- & Anna Bigas
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Article
| Open AccessTime-integrated BMP signaling determines fate in a stem cell model for early human development
The interpretation of the key developmental signal BMP remains poorly understood. Here, the authors show that the total time-integrated signaling controls differentiation in a stem cell embryo model and provide a possible mechanism.
- Seth Teague
- , Gillian Primavera
- & Idse Heemskerk
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Article
| Open AccessA microfluidic platform integrating functional vascularized organoids-on-chip
Vascularization remains a significant challenge in organoid technology. Here, the authors develop a microfluidic platform that enhances organoid growth, function and maturation, by establishing functional perfusable vascular networks.
- Clément Quintard
- , Emily Tubbs
- & Xavier Gidrol
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Article
| Open AccessMosquito midgut stem cell cellular defense response limits Plasmodium parasite infection
Here, the authors study the cellular response of midgut progenitors in Anopheles stephensi to Plasmodium berghei infection. They show that midgut stem cells are able to detect Plasmodium oocysts and eliminate them in a Jak/STAT pathway dependent manner.
- Ana-Beatriz F. Barletta
- , Jamie C. Smith
- & Carolina Barillas-Mury
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Article
| Open AccessNeurofibromin 1 controls metabolic balance and Notch-dependent quiescence of murine juvenile myogenic progenitors
The establishment of the postnatal skeletal muscle stem cell pool is not well understood. Here the authors show a requirement for Nf1 to coordinate muscle fiber growth and stem cell quiescence induction, and to prevent detrimental metabolic reprogramming with life-long consequences.
- Xiaoyan Wei
- , Angelos Rigopoulos
- & Sigmar Stricker
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Article
| Open AccessIn vitro induction of patterned branchial arch-like aggregate from human pluripotent stem cells
Early patterning of neural crest cells in the craniofacial primordium is important for its subsequent development. Here, authors establish in vitro model of branchial arch from human pluripotent stem cells for determining underlying mechanisms.
- Yusuke Seto
- , Ryoma Ogihara
- & Mototsugu Eiraku
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Article
| Open AccessThe transcriptional regulatory network modulating human trophoblast stem cells to extravillous trophoblast differentiation
Extravillous trophoblasts are pivotal in placental invasion and artery remodeling. Here the authors report stage-specific transcriptional regulators and their sequential roles in guiding proper trophoblast differentiation.
- Mijeong Kim
- , Yu Jin Jang
- & Jonghwan Kim
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Article
| Open AccessDynamic nucleolar phase separation influenced by non-canonical function of LIN28A instructs pluripotent stem cell fate decisions
The role of nucleolar phase separation in stem cell fate decision is not well understood. Here, the authors show that the nucleolus-localized LIN28A protein undergoes LLPS in mESCs and in vitro, and that pluripotency state conversion depends on this phase separation capacity.
- Tianyu Tan
- , Bo Gao
- & Jin Zhang
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Article
| Open AccessTrophoblast stem cell-based organoid models of the human placental barrier
The placenta is a transient organ that regulates the fetal environment, but our understanding of placental barrier function has been hampered by the lack of in vitro models. Here they develop human placental organoids that resemble the placental villus and form an intact syncytiotrophoblast barrier when cultured in a column model.
- Takeshi Hori
- , Hiroaki Okae
- & Hirokazu Kaji
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Article
| Open AccessDiffusible fraction of niche BMP ligand safeguards stem-cell differentiation
The activity of Drosophila male germline stem cells is tightly regulated by a cluster of somatic niche cells. Here they find that Dpp induces opposed cellular responses in stem cells versus in differentiating descendants, thereby ensuring spatial control of the niche with a single factor.
- Sharif M. Ridwan
- , Autumn Twillie
- & Mayu Inaba
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Article
| Open AccessChemically-defined and scalable culture system for intestinal stem cells derived from human intestinal organoids
Challenges in reproducibility and large-scale expansion limit the current applicability of human intestinal organoids. Here, the authors present a feeder-free, chemically-defined culture method for enrichment of intestinal stem cells isolated from 3D human intestinal organoids.
- Ohman Kwon
- , Hana Lee
- & Mi-Young Son
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Article
| Open AccessSexual dimorphism in melanocyte stem cell behavior reveals combinational therapeutic strategies for cutaneous repigmentation
Vitiligo is an autoimmune condition that results in skin depigmentation due to melanocyte loss, but the root causes are not well understood. Here they identify sexual dimorphism in melanocyte stem cells behavior arising from distinct skin inflammatory responses, and propose Prostaglandin E2 as a potential therapy for depigmentation conditions.
- Luye An
- , Dahihm Kim
- & Andrew C. White
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Article
| Open AccessLNP-RNA-engineered adipose stem cells for accelerated diabetic wound healing
Adipose stem cells are promising therapeutic agents in tissue regeneration. Here the authors develop a lipid nanoparticle/RNA engineering platform to enhance the protein production of these cells, which demonstrate superior healing efficacy in a mouse model of diabetic cutaneous wounds.
- Yonger Xue
- , Yuebao Zhang
- & Yizhou Dong
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Article
| Open AccessSelf-renewing human naïve pluripotent stem cells dedifferentiate in 3D culture and form blastoids spontaneously
Blastoids are emerging models for early embryo development exploration in vitro. Here, authors found self-renewing human naïve PSCs spontaneously and efficiently give rise to blastoids upon three-dimensional suspension culture.
- Mingyue Guo
- , Jinyi Wu
- & José C. R. Silva
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