| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1029321863 |
| P356 | DOI | 10.1007/S12185-015-1886-X |
| P698 | PubMed publication ID | 26475284 |
| P5875 | ResearchGate publication ID | 282945169 |
| P50 | author | Stan Gronthos | Q61478070 |
| P2093 | author name string | Thao M Nguyen | |
| Agnieszka Arthur | |||
| P2860 | cites work | Mutations of the ephrin-B1 gene cause craniofrontonasal syndrome | Q24533993 |
| Interactions between Eph kinases and ephrins provide a mechanism to support platelet aggregation once cell-to-cell contact has occurred | Q24534800 | ||
| Mutations of ephrin-B1 (EFNB1), a marker of tissue boundary formation, cause craniofrontonasal syndrome | Q24564244 | ||
| Eph/ephrin molecules--a hub for signaling and endocytosis | Q24611588 | ||
| Non-SH2/PDZ reverse signaling by ephrins | Q24629619 | ||
| A splice variant of human ephrin-A4 encodes a soluble molecule that is secreted by activated human B lymphocytes | Q28141013 | ||
| Symmetrical mutant phenotypes of the receptor EphB4 and its specific transmembrane ligand ephrin-B2 in cardiovascular development | Q28145776 | ||
| 'Eph'ective signaling: forward, reverse and crosstalk | Q28179338 | ||
| Ephrin stimulation modulates T cell chemotaxis | Q28202034 | ||
| Mechanisms and functions of Eph and ephrin signalling | Q28208291 | ||
| The Eph family of receptors | Q28251298 | ||
| A novel putative tyrosine kinase receptor encoded by the eph gene | Q28280591 | ||
| Bidirectional signaling through ephrinA2-EphA2 enhances osteoclastogenesis and suppresses osteoblastogenesis | Q28510537 | ||
| EphrinB1 is essential in T-cell-T-cell co-operation during T-cell activation | Q28584835 | ||
| Eph-ephrin bidirectional signaling in physiology and disease | Q29617975 | ||
| Eph receptor signalling casts a wide net on cell behaviour | Q29619988 | ||
| Self-renewing osteoprogenitors in bone marrow sinusoids can organize a hematopoietic microenvironment | Q29620053 | ||
| Positioning of bone marrow hematopoietic and stromal cells relative to blood flow in vivo: serially reconstituting hematopoietic stem cells reside in distinct nonperfused niches. | Q33555818 | ||
| Myeloma plasma cells alter the bone marrow microenvironment by stimulating the proliferation of mesenchymal stromal cells. | Q33558170 | ||
| The impact of CFNS-causing EFNB1 mutations on ephrin-B1 function | Q33610885 | ||
| Ephrin B1 regulates bone marrow stromal cell differentiation and bone formation by influencing TAZ transactivation via complex formation with NHERF1. | Q33613966 | ||
| Eph kinases and ephrins support thrombus growth and stability by regulating integrin outside-in signaling in platelets. | Q33895889 | ||
| Eph receptors and ephrins in cancer: bidirectional signalling and beyond | Q34021365 | ||
| Multiple myeloma mesenchymal stromal cells: Contribution to myeloma bone disease and therapeutics | Q34038854 | ||
| Ephrin-B1 forward signaling regulates craniofacial morphogenesis by controlling cell proliferation across Eph-ephrin boundaries. | Q34127484 | ||
| A stem cell molecular signature | Q34149366 | ||
| Nice neighborhood: emerging concepts of the stem cell niche | Q34165273 | ||
| The development of fibroblast colonies in monolayer cultures of guinea-pig bone marrow and spleen cells | Q34704081 | ||
| EphB6 crosslinking results in costimulation of T cells | Q34785859 | ||
| EphrinB2 regulation by PTH and PTHrP revealed by molecular profiling in differentiating osteoblasts | Q34796085 | ||
| Vascular cell adhesion molecule-1 expressed by bone marrow stromal cells mediates the binding of hematopoietic progenitor cells | Q67898011 | ||
| Osteogenesis in transplants of bone marrow cells | Q71202383 | ||
| Mobilization of CD34+ haematopoietic stem cells is associated with a functional inactivation of the integrin very late antigen 4 | Q74129075 | ||
| Thymic alterations in EphA4-deficient mice | Q79834573 | ||
| Human bone marrow stromal cells express a distinct set of biologically functional chemokine receptors | Q81411101 | ||
| Prospective isolation of mesenchymal stem cells from mouse compact bone | Q83001056 | ||
| A high affinity recombinant antibody to the human EphA3 receptor with enhanced ADCC activity | Q35441094 | ||
| Bone cell interactions through Eph/ephrin: bone modeling, remodeling and associated diseases | Q36402724 | ||
| Haematopoietic stem cells and early lymphoid progenitors occupy distinct bone marrow niches | Q36691868 | ||
| Cell-cell signaling via Eph receptors and ephrins | Q36967529 | ||
| SLAM family markers resolve functionally distinct subpopulations of hematopoietic stem cells and multipotent progenitors | Q37078786 | ||
| The ephrinB2/EphB4 axis is dysregulated in osteoprogenitors from myeloma patients and its activation affects myeloma bone disease and tumor growth | Q37334601 | ||
| Expression of Eph receptor A10 is correlated with lymph node metastasis and stage progression in breast cancer patients. | Q37481237 | ||
| EPHA3 as a novel therapeutic target in the hematological malignancies | Q38025161 | ||
| Eph/Ephrin signaling in injury and inflammation | Q38047589 | ||
| Therapeutic targeting of EPH receptors and their ligands | Q38174793 | ||
| EphA3 biology and cancer. | Q38267753 | ||
| Stromal cells modulate ephrinB2 expression and transmigration of hematopoietic cells | Q38314937 | ||
| Targeting EphA3 inhibits cancer growth by disrupting the tumor stromal microenvironment | Q38965799 | ||
| EphB/ephrin-B interactions mediate human MSC attachment, migration and osteochondral differentiation. | Q39634908 | ||
| Activation of ephrin A proteins influences hematopoietic stem cell adhesion and trafficking patterns | Q39676355 | ||
| Ephrin-B1 reverse signaling controls a posttranscriptional feedback mechanism via miR-124. | Q40338388 | ||
| A role of EphB4 receptor and its ligand, ephrin-B2, in erythropoiesis | Q40727092 | ||
| Receptor tyrosine kinase, EphB4 (HTK), accelerates differentiation of select human hematopoietic cells | Q40740770 | ||
| EphB4 Expressing Stromal Cells Exhibit an Enhanced Capacity for Hematopoietic Stem Cell Maintenance. | Q40879915 | ||
| Single adult human CD34(+)/Lin-/CD38(-) progenitors give rise to natural killer cells, B-lineage cells, dendritic cells, and myeloid cells | Q40986235 | ||
| Hematopoietic stem cells: Inferences from in vivo assays | Q41642017 | ||
| Ephrin-B2 controls cell motility and adhesion during blood-vessel-wall assembly | Q42168707 | ||
| EphB and Ephrin-B interactions mediate human mesenchymal stem cell suppression of activated T-cells. | Q42962199 | ||
| CXCL12 in early mesenchymal progenitors is required for haematopoietic stem-cell maintenance | Q43226905 | ||
| Ephrin B2 induces T cell costimulation | Q44484553 | ||
| Primary human CD34+ hematopoietic stem and progenitor cells express functionally active receptors of neuromediators | Q44796947 | ||
| Ephrin-A1 binding to CD4+ T lymphocytes stimulates migration and induces tyrosine phosphorylation of PYK2. | Q45178519 | ||
| Molecular and cellular characterisation of highly purified stromal stem cells derived from human bone marrow. | Q45859658 | ||
| Circulating N-cadherin levels are a negative prognostic indicator in patients with multiple myeloma. | Q46263392 | ||
| Eph/ephrinB mediate dental pulp stem cell mobilization and function | Q46274342 | ||
| Greater bone formation of Y2 knockout mice is associated with increased osteoprogenitor numbers and altered Y1 receptor expression | Q46279970 | ||
| Eph-ephrin promiscuity is now crystal clear | Q47683124 | ||
| Growth factor receptors in hematopoietic stem cells: EPH family expression in CD34+ and CD133+ cell populations from mobilized peripheral blood. | Q51239401 | ||
| Perivascular niche of postnatal mesenchymal stem cells in human bone marrow and dental pulp | Q52107163 | ||
| Smad3 contributes to positioning of proliferating cells in colonic crypts by inducing EphB receptor protein expression | Q53271592 | ||
| Heterotopic of bone marrow. Analysis of precursor cells for osteogenic and hematopoietic tissues | Q53745526 | ||
| Stromal cells responsible for transferring the microenvironment of the hemopoietic tissues. Cloning in vitro and retransplantation in vivo | Q54011232 | ||
| In vivo bone-specific EphB4 overexpression in mice protects both subchondral bone and cartilage during osteoarthritis | Q54494658 | ||
| Lack of evidence that hematopoietic stem cells depend on N-cadherin-mediated adhesion to osteoblasts for their maintenance | Q54540120 | ||
| EphB/ephrin-B interaction mediates adult stem cell attachment, spreading, and migration: implications for dental tissue repair. | Q54564139 | ||
| EphB4 enhances the process of endochondral ossification and inhibits remodeling during bone fracture repair | Q57265491 | ||
| Bidirectional ephrinB2-EphB4 signaling controls bone homeostasis | Q57675131 | ||
| Human mulipotential mesenchymal/stromal stem cells are derived from a discrete subpopulation of STRO-1bright/CD34 /CD45 /glycophorin-A-bone marrow cells | Q59696069 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 145-154 | |
| P577 | publication date | 2016-02-01 | |
| P1433 | published in | International Journal of Hematology | Q6051416 |
| P1476 | title | The role of Eph/ephrin molecules in stromal–hematopoietic interactions | |
| P478 | volume | 103 |
| Q38840851 | Current Understanding of the Pathways Involved in Adult Stem and Progenitor Cell Migration for Tissue Homeostasis and Repair |
| Q39356254 | Ephrin ligands and Eph receptors contribution to hematopoiesis |
| Q86964654 | Guest editorial: Human mesenchymal stromal/stem cell (MSC) |
| Q39534918 | Stimulatory Effects of Mesenchymal Stem Cells on cKit+ Cardiac Stem Cells Are Mediated by SDF1/CXCR4 and SCF/cKit Signaling Pathways |
| Q38743958 | Truncated EphA2 likely potentiates cell adhesion via integrins as well as infiltration and/or lodgment of a monocyte/macrophage cell line in the red pulp and marginal zone of the mouse spleen, where ephrin-A1 is prominently expressed in the vasculat |
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