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Общее количество найденных документов : 59
Показаны документы с 1 по 20
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1.
| A descriptive and quantitative study of the keratocytes of the corneal stroma of albino rabbits using transmission electron microscopy // Tissue and Cell, 2001. Vol. 33, N 4.-С.408-422
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2.
| Lee J. A model for radial extension of the lamella during locomotion of fish keratocytes // J. Cell Biol., 1991. Vol. 115, N 3.-С.368
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| Hofnagel O. A shift in the phosporylation state reduces motility and influences the distribution of vinculin in motile fish keratocytes // Eur. J. Cell Biol., 1998. Vol. 75, Suppl. n48.-С.58
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| Hofnagel O. A shift in the phosporylation state reduces motility and influences the distribution of vinculin in motile fish keratocytes // Eur. J. Cell Biol., 1998. Vol. 75, Suppl. n48.-С.58
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5.
| Additive and synergistic antiproliferative effects of cyclosporin A and gamma interferon on cultured human keratinocytes // Amer. I. Pathol., 1988. Vol. 131, N 1.-С.12-17
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6.
| An increase in DNA double-strand breaks, induced by Ku70 depletion, is associated with human papillomavirus 16 episome loss and de novo viral integration events // J. Pathol., 2007. Vol. 213, N 1.-С.27-34
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| Schaub Analysis of actin filament network organization in lamellipodia by comparing experimental and simulated images // J. Cell Sci., 2007. Vol. 120, N 8.-С.1491-1500
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8.
| Svitkina Tatyana M. Arp2/3 complex and actin depolymerizing factor/cofilin in dendritic organization and treadmilling of actin filament array in lamellipodia // J. Cell Biol., 1999. Vol. 144, N 5.-С.1009"026
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| Assessment of ocular irritation by image processed quantification of cell injury in human corneal cell cultures and in corneal constructs // ATLA: Alternat. Lab. Anim., 2004. Vol. 32, N 4.-С.345-353
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| Doyle Calcium transients induce spatially coordinated increases in traction force during the movement of fish keratocytes // J. Cell Sci., 2004. Vol. 117, N 11.-С.2203-2214
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11.
| cAMP and cGMP play an essential role in galvanotaxis of cell fragments // J. Cell. Physiol., 2016. Vol. 231, N 6.-С.1291-1300
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12.
| Cell motion predicts human epidermal stemness // J. Cell Biol., 2015. Vol. 209, N 2.-С.305-315
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| Characterization of factors involved in human papillomavirus type 16-mediated immortalization of oral keratinocytes // J. Gen. Virol., 1993. Vol. 74, N 4.-С.755-761
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14.
| Corneal stromal cells use both high- and low-contractility migration mechanisms in 3-D collagen matrices // Exp. Cell Res., 2012. Vol. 318, N 6.-С.741-752
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15.
| Doyle Andrew D. Cyclic changes in keratocyte speed and traction stress arise from Ca{2+}-dependent regulation of cell adhesiveness // J. Cell Sci., 2005. Vol. 118, N 2.-С.369-379
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16.
| Doyle Andrew D. Cyclic changes in keratocyte speed and traction stress arise from Ca{2+}-dependent regulation of cell adhesiveness // J. Cell Sci., 2005. Vol. 118, N 2.-С.369-379
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17.
| Cyclooxygenases in human and mouse skin and cultured human keratinocytes: Association of COX-2 expression with human keratinocyte differentiation // Exp. Cell Res., 1996. Vol. 224, N 1.-С.79-87
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18.
| Direct measurement of the lamellipodial protrusive force in a migrating cell // J. Cell Biol., 2006. Vol. 174, N 6.-С.767-772
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19.
| Effect of minoxidil on the mobility and differentiation of cultivated human keratinocytes // Arzneim.-Forsch., 1994. Vol. 44, N 2.-С.137-140
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20.
| Satterfield Effect of vitamin E on the production of collagen, DNA and fibronectin in keratocytes in vitro // Ophtalmic Res., 1988. Vol. 20, N 4.-С.227-231
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