From pluripotency to myogenesis: a multistep process in the dishThe E4F protein is required for mitotic progression during embryonic cell cyclesPluripotency of bank vole embryonic cells depends on FGF2 and activin A signaling pathways.Cyclins D2 and D1 are essential for postnatal pancreatic beta-cell growthA genome-wide study of gene activity reveals developmental signaling pathways in the preimplantation mouse embryo.Cell cycle regulation in early mouse embryos.Development of mice expressing a single D-type cyclin.Myogenic Differentiation of Mouse Embryonic Stem Cells That Lack a Functional Pax7 GeneProgression of inflammation during immunodeficient mouse skeletal muscle regeneration.Stromal derived factor-1 and granulocyte-colony stimulating factor treatment improves regeneration of Pax7-/- mice skeletal muscles.Temporal regulation of the first mitosis in Xenopus and mouse embryos.Temporal regulation of embryonic M-phases.On the transition from the meiotic to mitotic cell cycle during early mouse development.From planarians to mammals - the many faces of regeneration.Cell cycle regulation of embryonic stem cells and mouse embryonic fibroblasts lacking functional Pax7.Cell cycle regulation during proliferation and differentiation of mammalian muscle precursor cells.Factors regulating pluripotency and differentiation in early mammalian embryos and embryo-derived stem cells.Regulation of muscle stem cells activation: the role of growth factors and extracellular matrix.Mouse and human pluripotent stem cells and the means of their myogenic differentiation.Cell therapy in Duchenne muscular dystrophy treatment: clinical trials overview.Competence of in vitro cultured mouse embryonic stem cells for myogenic differentiation and fusion with myoblasts.The role of TGF-β1 during skeletal muscle regeneration.Sdf-1 (CXCL12) induces CD9 expression in stem cells engaged in muscle regeneration.Stem cells migration during skeletal muscle regeneration - the role of Sdf-1/Cxcr4 and Sdf-1/Cxcr7 axis.Morphology and growth of mammalian cells in a liquid/liquid culture system supported with oxygenated perfluorodecalinFertilization differently affects the levels of cyclin B1 and M-phase promoting factor activity in maturing and metaphase II mouse oocytes.Nuclear MMP-9 role in the regulation of rat skeletal myoblasts proliferation.Silencing of gelatinase expression delays myoblast differentiation in vitro.Transient MicroRNA Expression Enhances Myogenic Potential of Mouse Embryonic Stem Cells.Animal and vegetal poles of the mouse egg predict the polarity of the embryonic axis, yet are nonessential for development.Spindle assembly checkpoint-related failure perturbs early embryonic divisions and reduces reproductive performance of LT/Sv mice.Defective calcium release during in vitro fertilization of maturing oocytes of LT/Sv mice.Control of duration of the first two mitoses in a mouse embryo.Cytostatic factor inactivation is induced by a calcium-dependent mechanism present until the second cell cycle in fertilized but not in parthenogenetically activated mouse eggs.Expression of N-CAM in fertilized pre- and periimplantation and parthenogenetically activated mouse embryos.Differential chromatin condensation of female and male pronuclei in mouse zygotes.In Memoriam - Prof. Andrzej Krzysztof Tarkowski (1933-2016).The first mitosis of the mouse embryo is prolonged by transitional metaphase arrest.Myogenic potential of mouse embryonic stem cells lacking functional Pax7 tested in vitro by 5-azacitidine treatment and in vivo in regenerating skeletal muscle.Inflammatory response during slow- and fast-twitch muscle regeneration.
P50
Q28076485-4FE52C4C-B23A-495C-9AD9-A27D546054E0Q28589183-1C297019-EB77-41A2-8140-46CD3D2E28B2Q33452075-4DB0746A-5392-4D8F-B1EA-8FC04D0E8D6EQ33758338-0DF4C80E-8558-44F9-8BBC-7581894E9FBFQ34289900-A038E024-334C-41B3-A6C7-85C627AAE887Q34302810-E02EB595-A602-4620-9398-E16D7CFEA443Q35805563-3D515E4D-29E5-436E-B88E-D5AE244B699BQ36601884-79485BD7-19BA-4F60-A12F-67F53BC40CB7Q36605182-10BD6F80-4771-40A2-B1F7-3527C904D888Q36892014-2086974C-E0FF-4588-AAC6-61271B2D3950Q37051827-41BEEF85-134B-4CFB-83F2-AC91F2DEC24FQ37093171-E648E3FB-1BAA-4BD5-874F-548799A801F1Q37098803-9149634C-63FC-49A8-AA24-443B72953DB8Q37098806-10CFCBEA-FC8F-4E7B-B053-43358FA3882AQ37409410-D3215AE2-22BF-4F33-BACA-BB1CE182F5EAQ37883210-6FC4F95C-277B-4973-A635-F8A04F4AF6D1Q37962741-D8EB223D-7841-4A0D-BC68-517B4CF1385BQ37962761-81AA09DA-4F98-4689-905A-061646D24024Q38037456-3BAB3AC6-344E-43FB-89BC-C9F392E00BD4Q38467615-AD4AB787-F7C2-478F-9019-342F4298B97FQ38983512-E2E4032B-782A-417D-A539-E7DBD616C729Q39062904-F7F5E8FF-CFB0-41EE-83C9-57A77387EBFFQ41137706-39FC3E68-2DA1-4F14-B50A-B603DCA3BFFDQ41510232-4A7BAAFD-7A94-4B28-BA2A-56BCF81BB24DQ42057844-65D895DE-6400-4B0D-8BB7-08AAFD1E5606Q46375653-9FD2E886-B63B-41DC-84B3-A1D7621CFCDAQ46951467-EB598C55-D0CF-4EAA-8925-392DF4D0956DQ47343492-0C5EEAF7-2E37-4FBF-9488-54272208322CQ48287112-3FD373B7-7364-43B9-B8C8-DF999620401FQ48563191-FBB6EDD6-298A-4F9B-9D41-6F90F78C1B09Q48724487-355D281E-7A41-4B86-B451-84DC360BFBCEQ48736539-93C706EB-AD6A-48F5-BF5D-B4960D6D8414Q48896473-E0F9D735-E5C9-48F9-86F9-FF22CDB5B07DQ49067189-4E95BA10-5E76-4BC6-9A2B-32F62FFAE701Q49116347-FAB6B59F-9EB9-40B8-9D9B-D505E300FD53Q49157766-713AF903-40BA-43A1-9352-81C0C64733B4Q50451220-E1B220A6-29C1-4534-90C8-AD6E3371229CQ50654162-7C3908B8-A6AC-432D-8221-5555F385BBBFQ51236963-A2B1BC61-06AD-46DD-BC5D-2D8D4B7444CDQ51652223-AEFDACC7-C257-4AB7-9955-DFBD2ED20D01
P50
description
Polish biologist
@en
Pools biologe
@nl
biologa polacca
@it
biologiste polonaise
@fr
biologo poloniarra
@eu
biòloga polonesa
@ca
bióloga polaca
@ast
bióloga polaca
@es
bióloga polaca
@gl
bióloga polaca
@pt
name
Maria Anna Ciemerych-Litwinienko
@nl
Maria Ciemerych-Litwinienko
@ast
Maria Ciemerych-Litwinienko
@ca
Maria Ciemerych-Litwinienko
@cs
Maria Ciemerych-Litwinienko
@de
Maria Ciemerych-Litwinienko
@en
Maria Ciemerych-Litwinienko
@es
Maria Ciemerych-Litwinienko
@fr
Maria Ciemerych-Litwinienko
@ga
Maria Ciemerych-Litwinienko
@gl
type
label
Maria Anna Ciemerych-Litwinienko
@nl
Maria Ciemerych-Litwinienko
@ast
Maria Ciemerych-Litwinienko
@ca
Maria Ciemerych-Litwinienko
@cs
Maria Ciemerych-Litwinienko
@de
Maria Ciemerych-Litwinienko
@en
Maria Ciemerych-Litwinienko
@es
Maria Ciemerych-Litwinienko
@fr
Maria Ciemerych-Litwinienko
@ga
Maria Ciemerych-Litwinienko
@gl
altLabel
Maria A Ciemerych
@ast
Maria A Ciemerych
@en
Maria A Ciemerych
@es
Maria A Ciemerych
@nl
Maria Anna Ciemerych-Litwinienko
@de
Maria Anna Ciemerych-Litwinienko
@pl
prefLabel
Maria Anna Ciemerych-Litwinienko
@nl
Maria Ciemerych-Litwinienko
@ast
Maria Ciemerych-Litwinienko
@ca
Maria Ciemerych-Litwinienko
@cs
Maria Ciemerych-Litwinienko
@de
Maria Ciemerych-Litwinienko
@en
Maria Ciemerych-Litwinienko
@es
Maria Ciemerych-Litwinienko
@fr
Maria Ciemerych-Litwinienko
@ga
Maria Ciemerych-Litwinienko
@gl
P108
P214
P1412
P1559
Maria Ciemerych-Litwinienko
@pl
P2080
P21
P214
P27
P31
P3124
P496
0000-0003-0387-4179
P569
1967-01-01T00:00:00Z
P7293
9810566306605606
P7859
viaf-316019480