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Journal articles on the topic 'Bipotentiel'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

Fortin, Jérôme, and Géry de Saxcé. "Modélisation numérique des milieux granulaires par l'approche du bipotentiel." Comptes Rendus de l'Académie des Sciences - Series IIB - Mechanics-Physics-Astronomy 327, no. 8 (1999): 721–24. http://dx.doi.org/10.1016/s1287-4620(99)80126-4.

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2

Ban, M., C. Vallée, and C. Lerintiu. "On Hill's Bipotential." PAMM 5, no. 1 (2005): 289–90. http://dx.doi.org/10.1002/pamm.200510121.

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3

Anandam, Victor. "Bipotential elliptic differential operators." Hiroshima Mathematical Journal 28, no. 2 (1998): 329–36. http://dx.doi.org/10.32917/hmj/1206126764.

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4

Radomska, Hanna S., Claudia S. Huettner, Pu Zhang, Tao Cheng, David T. Scadden та Daniel G. Tenen. "CCAAT/Enhancer Binding Protein α Is a Regulatory Switch Sufficient for Induction of Granulocytic Development from Bipotential Myeloid Progenitors". Molecular and Cellular Biology 18, № 7 (1998): 4301–14. http://dx.doi.org/10.1128/mcb.18.7.4301.

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ABSTRACT The transcription factor CCAAT/enhancer binding protein α (C/EBPα) regulates a number of myeloid cell-specific genes. To delineate the role of C/EBPα in human granulopoiesis, we studied its expression and function in human primary cells and bipotential (granulocytic/monocytic) myeloid cell lines. We show that the expression of C/EBPα initiates with the commitment of multipotential precursors to the myeloid lineage, is specifically upregulated during granulocytic differentiation, and is rapidly downregulated during the alternative monocytic pathway. Conditional expression of C/EBPα alo
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5

BULIGA, MARIUS, GÉRY DE SAXCÉ, and CLAUDE VALLÉE. "BLURRED MAXIMAL CYCLICALLY MONOTONE SETS AND BIPOTENTIALS." Analysis and Applications 08, no. 04 (2010): 323–36. http://dx.doi.org/10.1142/s0219530510001667.

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Let X be a reflexive Banach space and Y its dual. In this paper, we find necessary and sufficient conditions for the existence of a bipotential for a blurred maximal cyclically monotone set. Equivalently, we find a necessary and sufficient condition on ϕ ∈ Γ0(X) so that the differential inclusion [Formula: see text] can be put in the form y ∈ ∂b(·, y)(x), with b a bipotential.
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6

de Saxcé, Géry, Marius Buliga, and Claude Vallée. "Blurred Constitutive Laws and Bipotential Convex Covers." Mathematics and Mechanics of Solids 16, no. 2 (2009): 161–71. http://dx.doi.org/10.1177/1081286509344878.

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7

Heemskerk, Mirjam H. M., Bianca Blom, Garry Nolan, et al. "Inhibition of T Cell and Promotion of Natural Killer Cell Development by the Dominant Negative Helix Loop Helix Factor Id3." Journal of Experimental Medicine 186, no. 9 (1997): 1597–602. http://dx.doi.org/10.1084/jem.186.9.1597.

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Bipotential T/natural killer (NK) progenitor cells are present in the human thymus. Despite their bipotential capacity, these progenitors develop predominantly to T cells in the thymus. The mechanisms controlling this developmental choice are unknown. Here we present evidence that a member(s) of the family of basic helix loop helix (bHLH) transcription factors determines lineage specification of NK/T cell progenitors. The natural dominant negative HLH factor Id3, which blocks transcriptional activity of a number of known bHLH factors, was expressed in CD34+ progenitor cells by retrovirus-media
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8

Ban, M., and D. Weichert. "Über durch Bipotentiale definierte Materialgesetze." ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 80, S2 (2000): 417–18. http://dx.doi.org/10.1002/zamm.20000801480.

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9

Zhou, Yang-Jing, Zhi-Qiang Feng, Juan Antonio Rojas Quintero, Jian-Bo Zhou, and Hui-Jian Chen. "Application of the Bipotential Theory to a Nonassociated Drucker–Prager Model." Advances in Civil Engineering 2018 (2018): 1–11. http://dx.doi.org/10.1155/2018/4534750.

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The bipotential theory allows us to describe nonassociated material laws. In this paper, we propose its application to the Drucker–Prager model. With a new description of the implicit flow rules, we propose dual constitutive cones as well as five forms of the bipotential function: the elastic stage in rate form, the plastic stage in rate form, the elastic stage in incremental form, the plastic stage in incremental form, and the elastoplastic stage in incremental form. By combining these with the finite element method, a numerical strategy that deals with the nonassociated Drucker–Prager model
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10

Terfaya, Nazihe, A. Berga, and M. Raous. "A Bipotential Method Coupling Contact, Friction and Adhesion." International Review of Mechanical Engineering (IREME) 9, no. 4 (2015): 341. http://dx.doi.org/10.15866/ireme.v9i4.5841.

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11

Brand, Marjorie, and Edward Morrissey. "Single-cell fate decisions of bipotential hematopoietic progenitors." Current Opinion in Hematology 27, no. 4 (2020): 232–40. http://dx.doi.org/10.1097/moh.0000000000000592.

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12

Hidaka, Kyoko, Manabu Shirai, Jong-Kook Lee, et al. "The Cellular Prion Protein Identifies Bipotential Cardiomyogenic Progenitors." Circulation Research 106, no. 1 (2010): 111–19. http://dx.doi.org/10.1161/circresaha.109.209478.

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13

Boudaia, El Hassan, Lahbib Bousshine, and Ali Chaaba. "Solving Frictional Contact Problems within the Bipotential Framework." Key Engineering Materials 498 (January 2012): 55–66. http://dx.doi.org/10.4028/www.scientific.net/kem.498.55.

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The main objective of this paper is to present a theoretical and numerical analysis of frictional contact problems for large deformation elasto-plastic based on the finite element method (FEM) and the mathematical programming. The study is done on an elasto-plastic material obeying to the von Mises criterion. The Coulomb’s friction contact is used to implement the frictional boundary conditions and is formulated by the bipotential concept leading us to minimize only one variational principle of minimum in displacement. In order to follow up the sequences of large deformations, we have used the
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14

Hunter, Samuel F., and Jane E. Bottenstein. "Growth factor responses of enriched bipotential glial progenitors." Developmental Brain Research 54, no. 2 (1990): 235–48. http://dx.doi.org/10.1016/0165-3806(90)90146-p.

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15

Blouin, Marie-José, and Normand Marceau. "Primary culture of fetalrat liver bipotential progenitor cells." Journal of Tissue Culture Methods 13, no. 2 (1991): 117–20. http://dx.doi.org/10.1007/bf01666141.

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16

Niu, Wanbao, and Allan C. Spradling. "Two distinct pathways of pregranulosa cell differentiation support follicle formation in the mouse ovary." Proceedings of the National Academy of Sciences 117, no. 33 (2020): 20015–26. http://dx.doi.org/10.1073/pnas.2005570117.

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We sequenced more than 52,500 single cells from embryonic day 11.5 (E11.5) postembryonic day 5 (P5) gonads and performed lineage tracing to analyze primordial follicles and wave 1 medullar follicles during mouse fetal and perinatal oogenesis. Germ cells clustered into six meiotic substages, as well as dying/nurse cells. Wnt-expressing bipotential precursors already present at E11.5 are followed at each developmental stage by two groups of ovarian pregranulosa (PG) cells. One PG group, bipotential pregranulosa (BPG) cells, derives directly from bipotential precursors, expresses Foxl2 early, and
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17

Gadue, Paul, and Mitchell J. Weiss. "Stem cells unscramble yolk sac hematopoiesis." Blood 114, no. 8 (2009): 1455–56. http://dx.doi.org/10.1182/blood-2009-06-226209.

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18

Wang, Xin, Chao Ni, Ning Jiang, et al. "Generation of liver bipotential organoids with a small-molecule cocktail." Journal of Molecular Cell Biology 12, no. 8 (2020): 618–29. http://dx.doi.org/10.1093/jmcb/mjaa010.

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Abstract Understanding the mechanism of how cholangiocytes (liver ductal cells) are activated upon liver injury and specified to hepatocytes would permit liver regenerative medicine. Here we achieved long-term in vitro expansion of mouse liver organoids by modulating signaling pathways with a combination of three small-molecule compounds. CHIR-99021, blebbistatin, and forskolin together maintained the liver organoids in bipotential stage with both cholangiocyte- and hepatocyte-specific gene expression profiles and enhanced capacity for further hepatocyte differentiation. By employing a chemica
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19

Sepponen, Kirsi, Karolina Lundin, Katri Knuus, et al. "The Role of Sequential BMP Signaling in Directing Human Embryonic Stem Cells to Bipotential Gonadal Cells." Journal of Clinical Endocrinology & Metabolism 102, no. 11 (2017): 4303–14. http://dx.doi.org/10.1210/jc.2017-01469.

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Abstract Context Human gonads arise as a pair of epithelial ridges on the surface of intermediate mesoderm (IM)-derived mesonephros. Toxic environmental factors and mutations in various genes are known to disturb normal gonadal development, but because of a lack of suitable in vitro models, detailed studies characterizing the molecular basis of the observed defects have not been performed. Objective To establish an in vitro method for studying differentiation of bipotential gonadal progenitors by using human embryonic stem cells (hESCs) and to investigate the role of bone morphogenetic protein
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20

Turpen, James B., Clair M. Kelley, Paul E. Mead, and Leonard I. Zon. "Bipotential Primitive-Definitive Hematopoietic Progenitors in the Vertebrate Embryo." Immunity 7, no. 3 (1997): 325–34. http://dx.doi.org/10.1016/s1074-7613(00)80354-4.

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21

Evrard, C., I. Borde, P. Marin, et al. "Immortalization of bipotential and plastic glio-neuronal precursor cells." Proceedings of the National Academy of Sciences 87, no. 8 (1990): 3062–66. http://dx.doi.org/10.1073/pnas.87.8.3062.

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22

Haruna, Y., K. Saito, S. Spaulding, M. A. Nalesnik, and M. A. Gerber. "Identification of bipotential progenitor cells in human liver development." Hepatology 23, no. 3 (1996): 476–81. http://dx.doi.org/10.1002/hep.510230312.

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23

Haruna, Y., K. Saito, S. Spaulding, M. A. Nalesnik, and M. A. Gerber. "Identification of bipotential progenitor cells in human liver development." European Journal of Gastroenterology & Hepatology 8, no. 6 (1996): 614. http://dx.doi.org/10.1097/00042737-199606000-00027.

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24

Saito, K., S. Spaulding, Y. Haruna, M. A. Nalesnik, and M. A. Gerber. "Identification of bipotential progenitor cells in human liver development." Gastroenterology 108, no. 4 (1995): A1161. http://dx.doi.org/10.1016/0016-5085(95)28944-5.

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25

de Saxcé, G., Marius Buliga, C. Vallée, and C. Lerintiu. "Construction of a bipotential for a multivalued constitutive law." PAMM 6, no. 1 (2006): 153–54. http://dx.doi.org/10.1002/pamm.200610057.

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26

Wong, Wan Man, Mikael Sigvardsson, Hong Qian та Marja Ekblom. "Identification Of Bipotential Lin-CD34+CD38- Integrin α2- Erythrocyte-Megakaryocyte Progenitors In Human Bone Marrow". Blood 122, № 21 (2013): 2423. http://dx.doi.org/10.1182/blood.v122.21.2423.2423.

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Abstract Human hematopoietic progenitor cells with megakaryocyte and erythroid commitment have been defined as the Lin-CD34+CD38+CD123-CD45RA- and in addition, as CD110+ (Manz et al. 2002; Edvardsson et al. 2006). However, previous colony assays have shown that bipotential megakaryocyte-erythroid progenitors (MEPs) also reside in the stem cell-enriched CD34+CD38- fraction in bone marrow (BM) (Debili et al., 1996). So far, the phenotype of this MEP population has remained obscure. We have here studied the expression of integrin α2 chain in normal human bone marrow CD34+CD38- stem and progenitor
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27

Ryken, Timothy C., Robert A. Robinson, and John C. VanGilder. "Familial occurrence of subependymoma." Journal of Neurosurgery 80, no. 6 (1994): 1108–11. http://dx.doi.org/10.3171/jns.1994.80.6.1108.

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✓ Subependymomas are unusual tumors believed to arise from the bipotential subependymal cell. Previous reports of familial occurrence of subependymoma have involved monozygous twins and siblings. The authors describe the first reported occurrence of fourth ventricular subependymoma in a father and son, suggesting the possibility of direct inheritance.
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28

Yu, Bing, Zhi-Ying He, Pu You, et al. "Reprogramming Fibroblasts into Bipotential Hepatic Stem Cells by Defined Factors." Cell Stem Cell 13, no. 3 (2013): 328–40. http://dx.doi.org/10.1016/j.stem.2013.06.017.

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29

Tada, Yasuhiro, Teruhisa Suzuki, Toshiaki Takezawa, et al. "Regeneration of Tracheal Epithelium Utilizing a Novel Bipotential Collagen Scaffold." Annals of Otology, Rhinology & Laryngology 117, no. 5 (2008): 359–65. http://dx.doi.org/10.1177/000348940811700506.

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30

ffrench-Constant, Charles, and Martin C. Raff. "Proliferating bipotential glial progenitor cells in adult rat optic nerve." Nature 319, no. 6053 (1986): 499–502. http://dx.doi.org/10.1038/319499a0.

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31

Montecino-Rodriguez, Encarnacion, Hyosuk Leathers, and Kenneth Dorshkind. "Bipotential B-macrophage progenitors are present in adult bone marrow." Nature Immunology 2, no. 1 (2001): 83–88. http://dx.doi.org/10.1038/83210.

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32

Loric, S. "A bipotential neuroblastic clone: Serotonergic or catecholaminergic phenotype after induction." Neurochemistry International 21 (January 1992): W5. http://dx.doi.org/10.1016/0197-0186(92)91879-2.

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33

Loric, S. "A bipotential neuroblastic clone: Serotonergic or catecholamiergic phenotype after induction." Neurochemistry International 21 (January 1992): B26. http://dx.doi.org/10.1016/0197-0186(92)92036-4.

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34

Shinoda, Gen, Katsutsugu Umeda, Toshio Heike та ін. "α4-Integrin+ endothelium derived from primate embryonic stem cells generates primitive and definitive hematopoietic cells". Blood 109, № 6 (2006): 2406–15. http://dx.doi.org/10.1182/blood-2006-06-031039.

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Abstract The mechanism of commencement of hematopoiesis in blood islands of the yolk sac and the aorta-gonad-mesonephros (AGM) region during primate embryogenesis remains elusive. In this study, we demonstrated that VE-cadherin+CD45− endothelial cells derived from nonhuman primate embryonic stem cells are able to generate primitive and definitive hematopoietic cells sequentially, as revealed by immunostaining of floating erythrocytes and colony-forming assay in cultures. Single bipotential progenitors for hematopoietic and endothelial lineages are included in this endothelial cell population.
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35

Heath, Victoria, Hyung Chan Suh, Matthew Holman та ін. "C/EBPα deficiency results in hyperproliferation of hematopoietic progenitor cells and disrupts macrophage development in vitro and in vivo". Blood 104, № 6 (2004): 1639–47. http://dx.doi.org/10.1182/blood-2003-11-3963.

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Abstract CCAAT enhancer binding protein-α (C/EBPα) inhibits proliferation in multiple cell types; therefore, we evaluated whether C/EBPα-deficient hematopoietic progenitor cells (HPCs) have an increased proliferative potential in vitro and in vivo. In this study we demonstrate that C/EBPα-/- fetal liver (FL) progenitors are hyperproliferative, show decreased differentiation potential, and show increased self-renewal capacity in response to hematopoietic growth factors (HGFs). There are fewer committed bipotential progenitors in C/EBPα-/- FL, whereas multipotential progenitors are unaffected. H
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36

Kodama, Ryuji, Goro Eguchi, and Robert O. Kelley. "Quick freeze-deep etch analysis of microfilaments in the circumferential bundle of retinal pigmented epithelial cells M vitro." Proceedings, annual meeting, Electron Microscopy Society of America 44 (August 1986): 160–61. http://dx.doi.org/10.1017/s0424820100142426.

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Pigmented epithelial cells from embryonic chick retina can transdifferentiate in vitro to express either pigmented (RPE) or lens cell (LC) phenotypes in response to alterations in the external culture environment. These observations suggest that the dedifferentiated phenotype of RPE cells is, at least, bipotential and that expression of either of two differentiated phenotypes is mediated by the cell surface and the associated cytoskeleton.
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37

Saxcé, Géry de. "Modelling contact with isotropic and anisotropic friction by the bipotential approach." Discrete and Continuous Dynamical Systems - Series S 9, no. 2 (2016): 409–25. http://dx.doi.org/10.3934/dcdss.2016004.

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38

Tamura, Tomohiko, Tokiko Nagamura-Inoue, Zeevik Shmeltzer, Takeshi Kuwata, and Keiko Ozato. "ICSBP Directs Bipotential Myeloid Progenitor Cells to Differentiate into Mature Macrophages." Immunity 13, no. 2 (2000): 155–65. http://dx.doi.org/10.1016/s1074-7613(00)00016-9.

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39

Tarlow, Branden D., Carl Pelz, Willscott E. Naugler, et al. "Bipotential Adult Liver Progenitors Are Derived from Chronically Injured Mature Hepatocytes." Cell Stem Cell 15, no. 5 (2014): 605–18. http://dx.doi.org/10.1016/j.stem.2014.09.008.

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40

Asakura, Kunihiko, Akio Suzumura, Moses Rodriguez, and Makoto Sawada. "Differentiation-specific mRNA expression of a mouse bipotential glial cell line." Neuroscience Letters 258, no. 1 (1998): 21–24. http://dx.doi.org/10.1016/s0304-3940(98)00862-3.

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41

Garcia-Moreno, S. Alexandra, Michael P. Plebanek, and Blanche Capel. "Epigenetic regulation of male fate commitment from an initially bipotential system." Molecular and Cellular Endocrinology 468 (June 2018): 19–30. http://dx.doi.org/10.1016/j.mce.2018.01.009.

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42

Temple, Sally, and Martin C. Raff. "Differentiation of a bipotential glial progenitor cell in single cell microculture." Nature 313, no. 5999 (1985): 223–25. http://dx.doi.org/10.1038/313223a0.

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43

Cumano, Ana, Christopher J. Paige, Norman N. Iscove, and Gerard Brady. "Bipotential precursors of B cells and macrophages in murine fetal liver." Nature 356, no. 6370 (1992): 612–15. http://dx.doi.org/10.1038/356612a0.

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44

Sackett, Sara D., Zhaodong Li, Reginald Hurtt, et al. "Foxl1 is a marker of bipotential hepatic progenitor cells in mice." Hepatology 49, no. 3 (2008): 920–29. http://dx.doi.org/10.1002/hep.22705.

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45

Schneeberger, Kerstin, Natalia Sánchez‐Romero, Shicheng Ye, et al. "Large‐Scale Production of LGR5‐Positive Bipotential Human Liver Stem Cells." Hepatology 72, no. 1 (2020): 257–70. http://dx.doi.org/10.1002/hep.31037.

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46

Koebernick, Katja, and Tomas Pieler. "Gli-type zinc finger proteins as bipotential transducers of Hedgehog signaling." Differentiation 70, no. 2-3 (2002): 69–76. http://dx.doi.org/10.1046/j.1432-0436.2002.700201.x.

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47

Yonezawa, A. "Single pole-piece objective lens with electrostatic bipotential lens for SEM." Journal of Electron Microscopy 51, no. 3 (2002): 149–56. http://dx.doi.org/10.1093/jmicro/51.3.149.

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48

Childs, Gwen V., Mary Iruthayanathan, Noor Akhter, Geda Unabia, and Brandy Whitehead-Johnson. "Bipotential Effects of Estrogen on Growth Hormone Synthesis and Storagein Vitro." Endocrinology 146, no. 4 (2005): 1780–88. http://dx.doi.org/10.1210/en.2004-1111.

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49

El Hanafi, Arjdal, Jamal Chaoufi, Claude Vallée, et al. "Construction of a bipotential representing a linear non-associated constitutive law." Comptes Rendus Mécanique 341, no. 9-10 (2013): 667–71. http://dx.doi.org/10.1016/j.crme.2013.09.002.

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50

Magnier, V., E. Charkaluk, and G. de Saxcé. "Bipotential versus return mapping algorithms: Implementation of non associated flow rules." International Journal of Solids and Structures 51, no. 15-16 (2014): 2857–64. http://dx.doi.org/10.1016/j.ijsolstr.2014.04.004.

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