This is a Validated Antibody Database (VAD) review about mouse Eng, based on 68 published articles (read how Labome selects the articles), using Eng antibody in all methods. It is aimed to help Labome visitors find the most suited Eng antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
Eng synonym: AI528660; AI662476; CD105; Endo; S-endoglin

BioLegend
rat monoclonal (MJ7/18)
  • flow cytometry; human; 1:200; loading ...
BioLegend Eng antibody (BioLegend, 120413) was used in flow cytometry on human samples at 1:200. Nat Commun (2022) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:200; fig 1e
BioLegend Eng antibody (Biolegend, 120408) was used in flow cytometry on mouse samples at 1:200 (fig 1e). Stem Cell Res Ther (2022) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:200; fig 4a
BioLegend Eng antibody (BioLegend, 120409) was used in flow cytometry on mouse samples at 1:200 (fig 4a). Int J Mol Sci (2021) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 1f
BioLegend Eng antibody (BioLegend, MJ7/18) was used in flow cytometry on mouse samples (fig 1f). Exp Mol Med (2021) ncbi
rat monoclonal (MJ7/18)
  • mass cytometry; mouse; fig 5a
BioLegend Eng antibody (Biolegend, 120404) was used in mass cytometry on mouse samples (fig 5a). Cancer Cell (2021) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:300; loading ...
BioLegend Eng antibody (Biolegend, 120415) was used in flow cytometry on mouse samples at 1:300. Nat Commun (2021) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 1a
BioLegend Eng antibody (Biolegend, 120413) was used in flow cytometry on mouse samples (fig 1a). Peerj (2020) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:200; fig s6a
BioLegend Eng antibody (Biolegend, 120409) was used in flow cytometry on mouse samples at 1:200 (fig s6a). Nat Commun (2020) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:50; loading ...; fig 2a
BioLegend Eng antibody (BioLegend, 120407) was used in flow cytometry on mouse samples at 1:50 (fig 2a). Stem Cell Res Ther (2020) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; human; loading ...; fig 1d, s1e
BioLegend Eng antibody (Biolegend, 120405) was used in flow cytometry on human samples (fig 1d, s1e). Cell Rep (2019) ncbi
rat monoclonal (MJ7/18)
  • mass cytometry; mouse; loading ...; fig 1d
BioLegend Eng antibody (Biolegend, 120410) was used in mass cytometry on mouse samples (fig 1d). Cell Stem Cell (2019) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig s1a
BioLegend Eng antibody (BioLegend, MJ7/18) was used in flow cytometry on mouse samples (fig s1a). EBioMedicine (2018) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 7b
BioLegend Eng antibody (Biolegend, MJ7/18) was used in flow cytometry on mouse samples (fig 7b). J Immunol (2018) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:200; loading ...; fig 3a
In order to investigate Hox expression and function in skeletal mesenchymal stromal cells, BioLegend Eng antibody (Biolegend, MJ7/18) was used in flow cytometry on mouse samples at 1:200 (fig 3a). Dev Cell (2016) ncbi
rat monoclonal (MJ7/18)
BioLegend Eng antibody (BioLegend, 120406) was used . Nat Commun (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:100; fig s1
BioLegend Eng antibody (BioLegend, 120410) was used in flow cytometry on mouse samples at 1:100 (fig s1). Nat Commun (2016) ncbi
rat monoclonal (MJ7/18)
BioLegend Eng antibody (Biolegend, 120407) was used . Stem Cell Reports (2016) ncbi
rat monoclonal (MJ7/18)
  • immunohistochemistry - frozen section; mouse; fig 2
In order to determine the role of TRPM7 channel function defects and how they deregulate thrombopoiesis through altered cellular Mg(2+) homeostasis and cytoskeletal architecture, BioLegend Eng antibody (Biolegend, 120402) was used in immunohistochemistry - frozen section on mouse samples (fig 2). Nat Commun (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig S1
In order to investigate the role of endoglin in the development of hematopoietic cells., BioLegend Eng antibody (Biolegend, 120411) was used in flow cytometry on mouse samples (fig S1). Biol Open (2015) ncbi
rat monoclonal (MJ7/18)
BioLegend Eng antibody (Biolegend, 120405) was used . Am J Physiol Lung Cell Mol Physiol (2013) ncbi
Invitrogen
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:100
Invitrogen Eng antibody (ThermoFisher, 13-1051) was used in flow cytometry on mouse samples at 1:100. elife (2021) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; 1:100; loading ...
Invitrogen Eng antibody (eBiosciences, 12-1051-82) was used in flow cytometry on mouse samples at 1:100. Nature (2021) ncbi
rat monoclonal (MJ7/18)
  • immunohistochemistry; mouse; 1:100; loading ...; fig 9a
Invitrogen Eng antibody (eBioscience, MA5-17943) was used in immunohistochemistry on mouse samples at 1:100 (fig 9a). elife (2019) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 3h
Invitrogen Eng antibody (eBioscience, 48-1051-82) was used in flow cytometry on mouse samples (fig 3h). J Clin Invest (2019) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 1a
Invitrogen Eng antibody (eBioscience, 12-1051-81) was used in flow cytometry on mouse samples (fig 1a). J Biol Chem (2018) ncbi
domestic rabbit polyclonal
  • immunohistochemistry - paraffin section; mouse; 1:10; fig 5a
In order to test if Trichinella spiralis infection or its derivative stimulate recruitment of CD105+/CD45- cells, Invitrogen Eng antibody (Thermo Fisher Scientific, PA5-12511) was used in immunohistochemistry - paraffin section on mouse samples at 1:10 (fig 5a). Exp Mol Pathol (2017) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig s2
In order to utilize a G2-Gata4Cre;R26REYFP mouse line to track the developmental fate of the G2-Gata4 cell lineage, Invitrogen Eng antibody (EBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig s2). Haematologica (2017) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig s1
In order to report the molecular changes involve in stem cell differentiation, Invitrogen Eng antibody (eBioscience, 12-1051-81) was used in flow cytometry on mouse samples (fig s1). Nucleic Acids Res (2017) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig ex5f
In order to perform live imaging for continuous single-cell long-term quantification of the transcription factors GATA1 and PU.1 and study how these factors influence early myeloid lineage choice, Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig ex5f). Nature (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 1e
In order to determine the origin of pericytes in adult angiogenesis, Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig 1e). Cell Res (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig s2b
In order to find that transplanted mesenchymal stromal/stem cells did not attenuate experimental autoimmune encephalomyelitis, Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig s2b). Stem Cells Dev (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 2
Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig 2). J Immunol (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig s1
In order to examine the effects of mesenchymal stromal cell-derived extracellular vesicles on bone marrow radiation damage, Invitrogen Eng antibody (eBioscience, 12-1051-82) was used in flow cytometry on mouse samples (fig s1). Leukemia (2016) ncbi
rat monoclonal (MJ7/18)
  • immunohistochemistry; mouse; fig 4
Invitrogen Eng antibody (eBioscience, 14?C1051) was used in immunohistochemistry on mouse samples (fig 4). PLoS Genet (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig s12
Invitrogen Eng antibody (ebioscience, 12-1051-81) was used in flow cytometry on mouse samples (fig s12). Nat Commun (2016) ncbi
domestic rabbit polyclonal
  • immunocytochemistry; mouse; fig 7d
In order to study the impact of endoglin to embryo implantation, Invitrogen Eng antibody (ThermoFisher Scientific, PA5-12511) was used in immunocytochemistry on mouse samples (fig 7d). Mol Cell Endocrinol (2016) ncbi
rat monoclonal (MJ7/18)
  • immunohistochemistry - frozen section; mouse; 1:200
In order to characterize the anti-tumor effects of OXA-11, Invitrogen Eng antibody (eBioscience, #14-1051-82) was used in immunohistochemistry - frozen section on mouse samples at 1:200. Clin Exp Metastasis (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 1
Invitrogen Eng antibody (eBioscience, 48-1051-82) was used in flow cytometry on mouse samples (fig 1). Nat Med (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 1b
In order to investigate the role of endoglin in the development of hematopoietic cells., Invitrogen Eng antibody (e-biosciences, 13-1051) was used in flow cytometry on mouse samples (fig 1b). Biol Open (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 1
In order to use flow cytometry to determine the profile of markers associated with ventilator-induced lung injury, Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig 1). Am J Physiol Lung Cell Mol Physiol (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
In order to elucidate the factors that mediate radiation-induced endothelial dysfunction, Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples . J Proteome Res (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
In order to test if loss of Atm in endothelial cells sensitizes tumors and normal tissues to radiation, Invitrogen Eng antibody (eBioscience, 12-1051) was used in flow cytometry on mouse samples . J Clin Invest (2014) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples . Stem Cells (2014) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples . Biomed Res Int (2013) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples . Biol Proced Online (2010) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 1, 2, 3
Invitrogen Eng antibody (eBioscience, MJ7/18) was used in flow cytometry on mouse samples (fig 1, 2, 3). Blood (2010) ncbi
Abcam
mouse monoclonal (SN6)
  • flow cytometry; human; loading ...; fig s4a
Abcam Eng antibody (Abcam, SN6) was used in flow cytometry on human samples (fig s4a). Int J Mol Sci (2021) ncbi
mouse monoclonal (SN6)
  • immunocytochemistry; rat; 1:1000; loading ...; fig s1b
Abcam Eng antibody (Abcam, ab11414) was used in immunocytochemistry on rat samples at 1:1000 (fig s1b). J Neuroinflammation (2020) ncbi
mouse monoclonal (SN6)
  • flow cytometry; rat; loading ...; fig 2b
Abcam Eng antibody (Abcam, ab11414) was used in flow cytometry on rat samples (fig 2b). Connect Tissue Res (2019) ncbi
domestic rabbit monoclonal (EPR21846)
  • flow cytometry; mouse; 1:100; loading ...; fig s1
Abcam Eng antibody (Abcam, ab221675) was used in flow cytometry on mouse samples at 1:100 (fig s1). Bone Res (2018) ncbi
mouse monoclonal (SN6)
  • immunocytochemistry; human; 1:100; fig 5
In order to investigate cell stemness and pluripotency and differentiation of cells from human testicular sperm extraction, Abcam Eng antibody (Abcam, ab11414) was used in immunocytochemistry on human samples at 1:100 (fig 5). Mol Reprod Dev (2016) ncbi
mouse monoclonal (SN6)
  • flow cytometry; rat; 1:50; fig 2
Abcam Eng antibody (Abcam, ab11414) was used in flow cytometry on rat samples at 1:50 (fig 2). Mol Med Rep (2016) ncbi
mouse monoclonal (SN6)
  • flow cytometry; rat; fig 1
  • flow cytometry; domestic rabbit; fig 1
Abcam Eng antibody (Abcam, ab11414) was used in flow cytometry on rat samples (fig 1) and in flow cytometry on domestic rabbit samples (fig 1). Sci Rep (2016) ncbi
mouse monoclonal (8A1)
  • flow cytometry; dogs; fig 1
  • immunocytochemistry; dogs; fig 1
Abcam Eng antibody (Abcam, ab156756) was used in flow cytometry on dogs samples (fig 1) and in immunocytochemistry on dogs samples (fig 1). J Cell Mol Med (2015) ncbi
mouse monoclonal (SN6)
  • flow cytometry; human; fig 1
Abcam Eng antibody (Abcam, ab11414) was used in flow cytometry on human samples (fig 1). J Biomed Mater Res A (2015) ncbi
Santa Cruz Biotechnology
rat monoclonal (2Q1707)
  • immunocytochemistry; human; loading ...; fig 1a
Santa Cruz Biotechnology Eng antibody (Santa Cruz, sc-71042) was used in immunocytochemistry on human samples (fig 1a). Adipocyte (2019) ncbi
rat monoclonal (2Q1707)
  • immunocytochemistry; bovine; 1:100; fig 1a
In order to discuss the use of co-cultures to for bovine in vitro embryo production, Santa Cruz Biotechnology Eng antibody (Santa Cruz, sc-71042) was used in immunocytochemistry on bovine samples at 1:100 (fig 1a). J Assist Reprod Genet (2016) ncbi
mouse monoclonal (P4A4)
  • other; human; fig 4
Santa Cruz Biotechnology Eng antibody (Santa Cruz, sc-20072) was used in other on human samples (fig 4). Sci Rep (2015) ncbi
rat monoclonal (2Q1707)
  • flow cytometry; bovine; 1:50
  • immunocytochemistry; bovine; 1:50
Santa Cruz Biotechnology Eng antibody (Santa Cruz, sc-71042) was used in flow cytometry on bovine samples at 1:50 and in immunocytochemistry on bovine samples at 1:50. Theriogenology (2015) ncbi
mouse monoclonal (P4A4)
  • immunohistochemistry - paraffin section; human; 1:300
In order to develop a computer-aided algorithm by quantum dots-based multiplexed molecular imaging technique to view cancer cells, tumor infiltrating macrophages and tumor neo-vessels, Santa Cruz Biotechnology Eng antibody (Santa Cruz, sc-20072) was used in immunohistochemistry - paraffin section on human samples at 1:300. Biomaterials (2014) ncbi
Bio-Rad
rat monoclonal (MJ7/18)
  • immunocytochemistry; human; 1:50; fig 3
In order to develop a strategy to define the functional and molecular contribution of vascular cells to stem cell niches in the brain, Bio-Rad Eng antibody (Abd Serotec, MCA4706) was used in immunocytochemistry on human samples at 1:50 (fig 3). J Neurosci (2015) ncbi
Novus Biologicals
rat monoclonal (MJ7/18)
  • western blot; mouse; loading ...; fig 1d
In order to research the promotional effect of endoglin on small muscle cell migration and vascular maturation, Novus Biologicals Eng antibody (Novus Biologicals, NB100-77666) was used in western blot on mouse samples (fig 1d). Arterioscler Thromb Vasc Biol (2017) ncbi
BD Biosciences
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; loading ...; fig 3a, 3b
BD Biosciences Eng antibody (BD, 562759) was used in flow cytometry on mouse samples (fig 3a, 3b). Stem Cells Int (2017) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; domestic sheep; 1:10; fig 3
In order to define a set of monoclonal antibodies for the immunophenotypic characterization of ovine mesenchymal stem cells, BD Biosciences Eng antibody (BD Biosciences, 562759) was used in flow cytometry on domestic sheep samples at 1:10 (fig 3). Cytometry A (2016) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 4
BD Biosciences Eng antibody (BD Biosciences, 562759) was used in flow cytometry on mouse samples (fig 4). PLoS ONE (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; human
In order to assess using adipose-tissue-derived mesenchymal stem cells for the treatment of glioblastoma in mice, BD Biosciences Eng antibody (BD Biosciences, 562759) was used in flow cytometry on human samples . PLoS ONE (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse
BD Biosciences Eng antibody (BD Biosciences, 562759) was used in flow cytometry on mouse samples . Stem Cell Res Ther (2015) ncbi
rat monoclonal (MJ7/18)
  • flow cytometry; mouse; fig 3
BD Biosciences Eng antibody (BD, 562759) was used in flow cytometry on mouse samples (fig 3). Hum Mol Genet (2015) ncbi
Developmental Studies Hybridoma Bank
rat monoclonal (MJ7/18)
  • immunohistochemistry; mouse; fig 5c
In order to investigate carcinoembryonic antigen-induced responses to adherent bacteria, Developmental Studies Hybridoma Bank Eng antibody (Southern-Biotech, MJ7/18) was used in immunohistochemistry on mouse samples (fig 5c). PLoS Pathog (2016) ncbi
Articles Reviewed
  1. Liu H, He J, Bagheri Yarmand R, Li Z, Liu R, Wang Z, et al. Osteocyte CIITA aggravates osteolytic bone lesions in myeloma. Nat Commun. 2022;13:3684 pubmed publisher
  2. Zhu H, Liu X, DING Y, Tan K, Ni W, Ouyang W, et al. IL-6 coaxes cellular dedifferentiation as a pro-regenerative intermediate that contributes to pericardial ADSC-induced cardiac repair. Stem Cell Res Ther. 2022;13:44 pubmed publisher
  3. Chaugule S, Kim J, Yang Y, Knobeloch K, He X, Shim J. Deubiquitinating Enzyme USP8 Is Essential for Skeletogenesis by Regulating Wnt Signaling. Int J Mol Sci. 2021;22: pubmed publisher
  4. Lee Y, Kim T, Kim Y, Kim S, Lee S, Seo S, et al. Microbiota-derived lactate promotes hematopoiesis and erythropoiesis by inducing stem cell factor production from leptin receptor+ niche cells. Exp Mol Med. 2021;53:1319-1331 pubmed publisher
  5. Hutton C, Heider F, Blanco Gómez A, Banyard A, Kononov A, Zhang X, et al. Single-cell analysis defines a pancreatic fibroblast lineage that supports anti-tumor immunity. Cancer Cell. 2021;: pubmed publisher
  6. Ambrosi T, Sinha R, Steininger H, Hoover M, Murphy M, Koepke L, et al. Distinct skeletal stem cell types orchestrate long bone skeletogenesis. elife. 2021;10: pubmed publisher
  7. Shen Y, Shami A, Moritz L, Larose H, Manske G, Ma Q, et al. TCF21+ mesenchymal cells contribute to testis somatic cell development, homeostasis, and regeneration in mice. Nat Commun. 2021;12:3876 pubmed publisher
  8. Gómez Ferrer M, Villanueva Badenas E, Sánchez Sánchez R, Sánchez López C, Baquero M, Sepulveda P, et al. HIF-1α and Pro-Inflammatory Signaling Improves the Immunomodulatory Activity of MSC-Derived Extracellular Vesicles. Int J Mol Sci. 2021;22: pubmed publisher
  9. Sanmarco L, Wheeler M, Gutiérrez Vázquez C, Polonio C, Linnerbauer M, Pinho Ribeiro F, et al. Gut-licensed IFNγ+ NK cells drive LAMP1+TRAIL+ anti-inflammatory astrocytes. Nature. 2021;: pubmed publisher
  10. Jin Y, Sun X, Pei F, Zhao Z, Mao J. Wnt16 signaling promotes osteoblast differentiation of periosteal derived cells in vitro and in vivo. Peerj. 2020;8:e10374 pubmed publisher
  11. Kim J, Yang Y, Park K, Ge X, Xu R, Li N, et al. A RUNX2 stabilization pathway mediates physiologic and pathologic bone formation. Nat Commun. 2020;11:2289 pubmed publisher
  12. Hou M, Han J, Li G, Kwon M, Jiang J, Emani S, et al. Multipotency of mouse trophoblast stem cells. Stem Cell Res Ther. 2020;11:55 pubmed publisher
  13. Hou K, Li G, Zhao J, Xu B, Zhang Y, Yu J, et al. Bone mesenchymal stem cell-derived exosomal microRNA-29b-3p prevents hypoxic-ischemic injury in rat brain by activating the PTEN-mediated Akt signaling pathway. J Neuroinflammation. 2020;17:46 pubmed publisher
  14. Vijayaraj P, Minasyan A, Durra A, Karumbayaram S, Mehrabi M, Aros C, et al. Modeling Progressive Fibrosis with Pluripotent Stem Cells Identifies an Anti-fibrotic Small Molecule. Cell Rep. 2019;29:3488-3505.e9 pubmed publisher
  15. V gtle T, Sharma S, Mori J, Nagy Z, Semeniak D, Scandola C, et al. Heparan sulfates are critical regulators of the inhibitory megakaryocyte-platelet receptor G6b-B. elife. 2019;8: pubmed publisher
  16. Nan L, Wang F, Ran D, Zhou S, Liu Y, Zhang Z, et al. Naringin alleviates H2O2-induced apoptosis via the PI3K/Akt pathway in rat nucleus pulposus-derived mesenchymal stem cells. Connect Tissue Res. 2019;:1-14 pubmed publisher
  17. Severe N, Karabacak N, Gustafsson K, Baryawno N, Courties G, Kfoury Y, et al. Stress-Induced Changes in Bone Marrow Stromal Cell Populations Revealed through Single-Cell Protein Expression Mapping. Cell Stem Cell. 2019;25:570-583.e7 pubmed publisher
  18. Radhakrishnan S, Trentz O, Reddy M, Rela M, Kandasamy M, Sellathamby S. In vitro transdifferentiation of human adipose tissue-derived stem cells to neural lineage cells - a stage-specific incidence. Adipocyte. 2019;8:164-177 pubmed publisher
  19. Stivala S, Codilupi T, Brkic S, Baerenwaldt A, Ghosh N, Hao Shen H, et al. Targeting compensatory MEK/ERK activation increases JAK inhibitor efficacy in myeloproliferative neoplasms. J Clin Invest. 2019;130:1596-1611 pubmed publisher
  20. Chen X, Zhi X, Wang J, Su J. RANKL signaling in bone marrow mesenchymal stem cells negatively regulates osteoblastic bone formation. Bone Res. 2018;6:34 pubmed publisher
  21. Chen Y, Qin X, An Q, Yi J, Feng F, Yin D, et al. Mesenchymal Stromal Cells Directly Promote Inflammation by Canonical NLRP3 and Non-canonical Caspase-11 Inflammasomes. EBioMedicine. 2018;32:31-42 pubmed publisher
  22. Ge J, Burnier L, Adamopoulou M, Kwa M, Schaks M, Rottner K, et al. RhoA, Rac1, and Cdc42 differentially regulate αSMA and collagen I expression in mesenchymal stem cells. J Biol Chem. 2018;293:9358-9369 pubmed publisher
  23. Mumau M, Vanderbeck A, Lynch E, Golec S, Emerson S, Punt J. Identification of a Multipotent Progenitor Population in the Spleen That Is Regulated by NR4A1. J Immunol. 2018;200:1078-1087 pubmed publisher
  24. Hasby Saad M, Hasby E. Trichinella Spiralis Impact on Mesenchymal Stem Cells: Immunohistochemical Study by Image Analyzer in Murine Model. Exp Mol Pathol. 2017;102:396-407 pubmed publisher
  25. Tian H, Ketova T, Hardy D, Xu X, Gao X, Zijlstra A, et al. Endoglin Mediates Vascular Maturation by Promoting Vascular Smooth Muscle Cell Migration and Spreading. Arterioscler Thromb Vasc Biol. 2017;37:1115-1126 pubmed publisher
  26. Fernandez N, Renna H, McHugh L, Mazolkova K, Crugnola W, Evans J. Mouse Mesenchymal Progenitor Cells Expressing Adipogenic and Osteogenic Transcription Factors Suppress the Macrophage Inflammatory Response. Stem Cells Int. 2017;2017:5846257 pubmed publisher
  27. Cañete A, Carmona R, Ariza L, Sanchez M, Rojas A, Muñoz Chápuli R. A population of hematopoietic stem cells derives from GATA4-expressing progenitors located in the placenta and lateral mesoderm of mice. Haematologica. 2017;102:647-655 pubmed publisher
  28. Yang J, Tanaka Y, Seay M, Li Z, Jin J, Garmire L, et al. Single cell transcriptomics reveals unanticipated features of early hematopoietic precursors. Nucleic Acids Res. 2017;45:1281-1296 pubmed publisher
  29. Rux D, Song J, Swinehart I, Pineault K, Schlientz A, Trulik K, et al. Regionally Restricted Hox Function in Adult Bone Marrow Multipotent Mesenchymal Stem/Stromal Cells. Dev Cell. 2016;39:653-666 pubmed publisher
  30. Bahal R, Ali McNeer N, Quijano E, Liu Y, Sulkowski P, Turchick A, et al. In vivo correction of anaemia in ?-thalassemic mice by ?PNA-mediated gene editing with nanoparticle delivery. Nat Commun. 2016;7:13304 pubmed publisher
  31. Hu X, García M, Weng L, Jung X, Murakami J, Kumar B, et al. Identification of a common mesenchymal stromal progenitor for the adult haematopoietic niche. Nat Commun. 2016;7:13095 pubmed publisher
  32. Mittal S, Omoto M, Amouzegar A, Sahu A, Rezazadeh A, Katikireddy K, et al. Restoration of Corneal Transparency by Mesenchymal Stem Cells. Stem Cell Reports. 2016;7:583-590 pubmed publisher
  33. Miranda M, Nascimento H, Costa M, Costa N, Brito K, Lopes C, et al. Increasing of blastocyst rate and gene expression in co-culture of bovine embryos with adult adipose tissue-derived mesenchymal stem cells. J Assist Reprod Genet. 2016;33:1395-1403 pubmed
  34. Hoppe P, Schwarzfischer M, Loeffler D, Kokkaliaris K, Hilsenbeck O, Moritz N, et al. Early myeloid lineage choice is not initiated by random PU.1 to GATA1 protein ratios. Nature. 2016;535:299-302 pubmed publisher
  35. Yu Q, Song W, Wang D, Zeng Y. Identification of blood vascular endothelial stem cells by the expression of protein C receptor. Cell Res. 2016;26:1079-1098 pubmed publisher
  36. Abramowski P, Krasemann S, Ernst T, Lange C, Ittrich H, Schweizer M, et al. Mesenchymal Stromal/Stem Cells Do Not Ameliorate Experimental Autoimmune Encephalomyelitis and Are Not Detectable in the Central Nervous System of Transplanted Mice. Stem Cells Dev. 2016;25:1134-48 pubmed publisher
  37. Patenaude J, Perreault C. Thymic Mesenchymal Cells Have a Distinct Transcriptomic Profile. J Immunol. 2016;196:4760-70 pubmed publisher
  38. Muenzner P, Kengmo Tchoupa A, Klauser B, Brunner T, Putze J, Dobrindt U, et al. Uropathogenic E. coli Exploit CEA to Promote Colonization of the Urogenital Tract Mucosa. PLoS Pathog. 2016;12:e1005608 pubmed publisher
  39. Wen S, Dooner M, Cheng Y, Papa E, Del Tatto M, Pereira M, et al. Mesenchymal stromal cell-derived extracellular vesicles rescue radiation damage to murine marrow hematopoietic cells. Leukemia. 2016;30:2221-2231 pubmed publisher
  40. Khan M, Chandrashekran A, Smith R, Dudhia J. Immunophenotypic characterization of ovine mesenchymal stem cells. Cytometry A. 2016;89:443-50 pubmed publisher
  41. Sadeghian Nodoushan F, Aflatoonian R, Borzouie Z, Akyash F, Fesahat F, Soleimani M, et al. Pluripotency and differentiation of cells from human testicular sperm extraction: An investigation of cell stemness. Mol Reprod Dev. 2016;83:312-23 pubmed publisher
  42. Stritt S, Nurden P, Favier R, Favier M, Ferioli S, Gotru S, et al. Defects in TRPM7 channel function deregulate thrombopoiesis through altered cellular Mg(2+) homeostasis and cytoskeletal architecture. Nat Commun. 2016;7:11097 pubmed publisher
  43. Ojeda Fernandez L, Recio Poveda L, Aristorena M, Lastres P, Blanco F, Sanz Rodriguez F, et al. Mice Lacking Endoglin in Macrophages Show an Impaired Immune Response. PLoS Genet. 2016;12:e1005935 pubmed publisher
  44. Lee B, Koo J, Yun Jun J, Gavrilova O, Lee Y, Seo A, et al. A mouse model for a partially inactive obesity-associated human MC3R variant. Nat Commun. 2016;7:10522 pubmed publisher
  45. Chadchan S, Kumar V, Maurya V, Soni U, Jha R. Endoglin (CD105) coordinates the process of endometrial receptivity for embryo implantation. Mol Cell Endocrinol. 2016;425:69-83 pubmed publisher
  46. Liu T, Mu H, Shen Z, Song Z, Chen X, Wang Y. Autologous adipose tissue‑derived mesenchymal stem cells are involved in rat liver regeneration following repeat partial hepatectomy. Mol Med Rep. 2016;13:2053-9 pubmed publisher
  47. Zhang X, Ma Y, Fu X, Liu Q, Shao Z, Dai L, et al. Runx2-Modified Adipose-Derived Stem Cells Promote Tendon Graft Integration in Anterior Cruciate Ligament Reconstruction. Sci Rep. 2016;6:19073 pubmed publisher
  48. Latham S, Tiberti N, Gokoolparsadh N, Holdaway K, Couraud P, Grau G, et al. Immuno-analysis of microparticles: probing at the limits of detection. Sci Rep. 2015;5:16314 pubmed publisher
  49. Forni M, Ramos Maia Lobba A, Pereira Ferreira A, Sogayar M. Simultaneous Isolation of Three Different Stem Cell Populations from Murine Skin. PLoS ONE. 2015;10:e0140143 pubmed publisher
  50. Moen I, Gebre M, Alonso Camino V, Chen D, Epstein D, McDonald D. Anti-metastatic action of FAK inhibitor OXA-11 in combination with VEGFR-2 signaling blockade in pancreatic neuroendocrine tumors. Clin Exp Metastasis. 2015;32:799-817 pubmed publisher
  51. Mançanares C, Oliveira V, Oliveira L, Carvalho A, Sampaio R, Mançanares A, et al. Isolation and characterization of mesenchymal stem cells from the yolk sacs of bovine embryos. Theriogenology. 2015;84:887-98 pubmed publisher
  52. de Melo S, Bittencourt S, Ferrazoli E, da Silva C, da Cunha F, da Silva F, et al. The Anti-Tumor Effects of Adipose Tissue Mesenchymal Stem Cell Transduced with HSV-Tk Gene on U-87-Driven Brain Tumor. PLoS ONE. 2015;10:e0128922 pubmed publisher
  53. Shankman L, Gomez D, Cherepanova O, Salmon M, Alencar G, Haskins R, et al. KLF4-dependent phenotypic modulation of smooth muscle cells has a key role in atherosclerotic plaque pathogenesis. Nat Med. 2015;21:628-37 pubmed publisher
  54. Nasrallah R, Knezevic K, Thai T, Thomas S, Göttgens B, Lacaud G, et al. Endoglin potentiates nitric oxide synthesis to enhance definitive hematopoiesis. Biol Open. 2015;4:819-29 pubmed publisher
  55. Evans J, Salvador V, George S, Trevino Gutierrez C, Nunez C. Mouse aorta-derived mesenchymal progenitor cells contribute to and enhance the immune response of macrophage cells under inflammatory conditions. Stem Cell Res Ther. 2015;6:56 pubmed publisher
  56. Sohn J, Lu A, Tang Y, Wang B, Huard J. Activation of non-myogenic mesenchymal stem cells during the disease progression in dystrophic dystrophin/utrophin knockout mice. Hum Mol Genet. 2015;24:3814-29 pubmed publisher
  57. Hensley M, de Andrade J, Keene B, MEURS K, Tang J, Wang Z, et al. Cardiac regenerative potential of cardiosphere-derived cells from adult dog hearts. J Cell Mol Med. 2015;19:1805-13 pubmed publisher
  58. Crouch E, Liu C, Silva Vargas V, Doetsch F. Regional and stage-specific effects of prospectively purified vascular cells on the adult V-SVZ neural stem cell lineage. J Neurosci. 2015;35:4528-39 pubmed publisher
  59. Woods S, Waite A, O Dea K, Halford P, Takata M, Wilson M. Kinetic profiling of in vivo lung cellular inflammatory responses to mechanical ventilation. Am J Physiol Lung Cell Mol Physiol. 2015;308:L912-21 pubmed publisher
  60. Azimzadeh O, Sievert W, Sarioglu H, Merl Pham J, Yentrapalli R, Bakshi M, et al. Integrative proteomics and targeted transcriptomics analyses in cardiac endothelial cells unravel mechanisms of long-term radiation-induced vascular dysfunction. J Proteome Res. 2015;14:1203-19 pubmed publisher
  61. Moding E, Lee C, Castle K, Oh P, Mao L, Zha S, et al. Atm deletion with dual recombinase technology preferentially radiosensitizes tumor endothelium. J Clin Invest. 2014;124:3325-38 pubmed publisher
  62. Shao Z, Zhang X, Pi Y, Yin L, Li L, Chen H, et al. Surface modification on polycaprolactone electrospun mesh and human decalcified bone scaffold with synovium-derived mesenchymal stem cells-affinity peptide for tissue engineering. J Biomed Mater Res A. 2015;103:318-29 pubmed publisher
  63. Hu W, Fang M, Zhao H, Yan S, Yuan J, Peng C, et al. Tumor invasion unit in gastric cancer revealed by QDs-based in situ molecular imaging and multispectral analysis. Biomaterials. 2014;35:4125-32 pubmed publisher
  64. Povinelli B, Nemeth M. Wnt5a regulates hematopoietic stem cell proliferation and repopulation through the Ryk receptor. Stem Cells. 2014;32:105-15 pubmed publisher
  65. Roehrich M, Spicher A, Milano G, Vassalli G. Characterization of cardiac-resident progenitor cells expressing high aldehyde dehydrogenase activity. Biomed Res Int. 2013;2013:503047 pubmed publisher
  66. Berdnikovs S, Abdala Valencia H, Cook Mills J. Endothelial cell PTP1B regulates leukocyte recruitment during allergic inflammation. Am J Physiol Lung Cell Mol Physiol. 2013;304:L240-9 pubmed publisher
  67. Weishaupt H, Attema J. A Method to Study the Epigenetic Chromatin States of Rare Hematopoietic Stem and Progenitor Cells; MiniChIP-Chip. Biol Proced Online. 2010;12:1-17 pubmed publisher
  68. Böiers C, Buza Vidas N, Jensen C, Pronk C, Kharazi S, Wittmann L, et al. Expression and role of FLT3 in regulation of the earliest stage of normal granulocyte-monocyte progenitor development. Blood. 2010;115:5061-8 pubmed publisher