这是一篇来自已证抗体库的有关人类 ITGA6的综述,是根据152篇发表使用所有方法的文章归纳的。这综述旨在帮助来邦网的访客找到最适合ITGA6 抗体。
ITGA6 同义词: CD49f; ITGA6B; VLA-6

BioLegend
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类
BioLegend ITGA6抗体(BioLegend, 313612)被用于被用于流式细胞仪在人类样本上. Front Immunol (2022) ncbi
大鼠 单克隆(GoH3)
  • mass cytometry; 人类; 图 4a
BioLegend ITGA6抗体(Biolegend, 313602)被用于被用于mass cytometry在人类样本上 (图 4a). Cell Rep (2022) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:200; 图 5d
BioLegend ITGA6抗体(BioLegend, 313604)被用于被用于流式细胞仪在小鼠样本上浓度为1:200 (图 5d). elife (2022) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠
BioLegend ITGA6抗体(Biolegend, 313602)被用于被用于流式细胞仪在小鼠样本上. Cancer Cell (2021) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:30; 图 s2e
BioLegend ITGA6抗体(BioLegend, 313608)被用于被用于流式细胞仪在小鼠样本上浓度为1:30 (图 s2e). Cancer Res (2021) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 图 7d
BioLegend ITGA6抗体(Biolegend, GoH3)被用于被用于免疫组化在小鼠样本上 (图 7d). Nat Commun (2021) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:200
BioLegend ITGA6抗体(Biolegend, GoH3)被用于被用于流式细胞仪在小鼠样本上浓度为1:200. elife (2020) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:2000; 图 s1-1a
BioLegend ITGA6抗体(Biolegend, GoH3)被用于被用于流式细胞仪在小鼠样本上浓度为1:2000 (图 s1-1a). elife (2020) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 1:1000
BioLegend ITGA6抗体(BioLegend, 313602)被用于被用于免疫组化在小鼠样本上浓度为1:1000. elife (2020) ncbi
大鼠 单克隆(GoH3)
  • 其他; 人类; 1:100
BioLegend ITGA6抗体(Biolegend, GoH3)被用于被用于其他在人类样本上浓度为1:100. elife (2020) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化-冰冻切片; 小鼠; 1:200; 图 5c, 7s4b
BioLegend ITGA6抗体(Biolegend, 313602)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:200 (图 5c, 7s4b). elife (2020) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:1000; 图 2s2d
BioLegend ITGA6抗体(BioLegend, 313622)被用于被用于流式细胞仪在小鼠样本上浓度为1:1000 (图 2s2d). elife (2019) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:20; 图 2d
  • 流式细胞仪; 小鼠; 1:100; 图 2s2c
BioLegend ITGA6抗体(Biolegend, GoH3)被用于被用于流式细胞仪在人类样本上浓度为1:20 (图 2d) 和 被用于流式细胞仪在小鼠样本上浓度为1:100 (图 2s2c). elife (2019) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:50; 图 s7
BioLegend ITGA6抗体(Biolegend, 313628)被用于被用于流式细胞仪在人类样本上浓度为1:50 (图 s7). Nat Methods (2019) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:10; 图 2f
BioLegend ITGA6抗体(Biolegend, 313611)被用于被用于流式细胞仪在人类样本上浓度为1:10 (图 2f). Nature (2019) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 9b
  • 流式细胞仪; 小鼠; 图 2a
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在人类样本上 (图 9b) 和 被用于流式细胞仪在小鼠样本上 (图 2a). J Cell Biol (2018) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 1:100; 图 4a
BioLegend ITGA6抗体(Biolegend, 313606)被用于被用于免疫组化在小鼠样本上浓度为1:100 (图 4a). Nature (2018) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 2a
BioLegend ITGA6抗体(Biolegend, 313626)被用于被用于流式细胞仪在小鼠样本上 (图 2a). Nature (2018) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s3c
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 s3c). J Clin Invest (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化-冰冻切片; 小鼠; 1:150; 图 5a
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:150 (图 5a). Nat Commun (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 3e
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 3e). Science (2017) ncbi
大鼠 单克隆(GoH3)
BioLegend ITGA6抗体(Biolegend, 313616)被用于. Stem Cell Reports (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:25; 图 3a
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在人类样本上浓度为1:25 (图 3a). Nature (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 2a
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 2a). Sci Rep (2016) ncbi
大鼠 单克隆(GoH3)
BioLegend ITGA6抗体(BioLegend, 313616)被用于. Sci Rep (2016) ncbi
大鼠 单克隆(GoH3)
BioLegend ITGA6抗体(BioLegend, 313602)被用于. Stem Cell Reports (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 1a
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 1a). PLoS Pathog (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 4
BioLegend ITGA6抗体(BioLegend, 313615)被用于被用于流式细胞仪在人类样本上 (图 4). Cancer Res (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 表 s1
BioLegend ITGA6抗体(Biolegend, 313622)被用于被用于流式细胞仪在人类样本上 (表 s1). Stem Cells (2016) ncbi
大鼠 单克隆(GoH3)
  • 其他; 人类; 图 st1
BioLegend ITGA6抗体(BIOLegend, GoH3)被用于被用于其他在人类样本上 (图 st1). Mol Cell Proteomics (2016) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 图 s1
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于免疫组化在小鼠样本上 (图 s1). Nat Med (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫印迹; 人类; 1:1000
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于免疫印迹在人类样本上浓度为1:1000. Hum Mol Genet (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s6
BioLegend ITGA6抗体(BioLegend, 313608)被用于被用于流式细胞仪在小鼠样本上 (图 s6). Proc Natl Acad Sci U S A (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 1
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在人类样本上 (图 1). Nat Commun (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 5
BioLegend ITGA6抗体(BioLegend, GoH3)被用于被用于流式细胞仪在人类样本上 (图 5). Mol Biol Cell (2014) ncbi
赛默飞世尔
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 1a, 3a
赛默飞世尔 ITGA6抗体(eBioscience, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 1a, 3a). Stem Cell Res Ther (2022) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:100
赛默飞世尔 ITGA6抗体(eBioscience, GoH3)被用于被用于流式细胞仪在小鼠样本上浓度为1:100. Nat Commun (2021) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:200; 图 2b
赛默飞世尔 ITGA6抗体(eBiosciences, 12-0495-81)被用于被用于流式细胞仪在小鼠样本上浓度为1:200 (图 2b). Nat Metab (2021) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:1000; 图 s1-1b
赛默飞世尔 ITGA6抗体(Thermo Fisher Scientific, 25-0495-82)被用于被用于流式细胞仪在小鼠样本上浓度为1:1000 (图 s1-1b). elife (2020) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 免疫组化; 人类; 1:100; 图 s1c
赛默飞世尔 ITGA6抗体(Invitrogen-Thermo Fisher Scientific, eBioGoH3 [GoH3])被用于被用于免疫组化在人类样本上浓度为1:100 (图 s1c). J Cell Biol (2020) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:200; 图 e9e
赛默飞世尔 ITGA6抗体(eBioscience, 46-0495-82)被用于被用于流式细胞仪在小鼠样本上浓度为1:200 (图 e9e). Nature (2019) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 人类; 1:50; 图 3a, 3b
赛默飞世尔 ITGA6抗体(eBioscience/Thermo, 11-0495-82)被用于被用于流式细胞仪在人类样本上浓度为1:50 (图 3a, 3b). Stem Cells (2019) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 1b
赛默飞世尔 ITGA6抗体(eBioscience, 17-0495)被用于被用于流式细胞仪在小鼠样本上 (图 1b). Cell Rep (2018) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 免疫印迹; 小鼠; 图 s1g
赛默飞世尔 ITGA6抗体(Thermo Fisher Scientific, 11-0495)被用于被用于免疫印迹在小鼠样本上 (图 s1g). J Clin Invest (2018) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 人类; 图 2c
赛默飞世尔 ITGA6抗体(eBioscience, 12-0495)被用于被用于流式细胞仪在人类样本上 (图 2c). Oncotarget (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 7B
赛默飞世尔 ITGA6抗体(eBioscience, 17-0495-80)被用于被用于流式细胞仪在小鼠样本上 (图 7B). Oncotarget (2016) ncbi
domestic rabbit 单克隆(5HCLC)
  • 免疫组化-石蜡切片; 小鼠; 1:300; 图 4
赛默飞世尔 ITGA6抗体(Thermo Scientific, 710209)被用于被用于免疫组化-石蜡切片在小鼠样本上浓度为1:300 (图 4). Mol Reprod Dev (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:50; 图 6c
赛默飞世尔 ITGA6抗体(eBioscience, 48-0495-82)被用于被用于流式细胞仪在小鼠样本上浓度为1:50 (图 6c). Nat Cell Biol (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 5
赛默飞世尔 ITGA6抗体(eBioscience, 17-0495-80)被用于被用于流式细胞仪在小鼠样本上 (图 5). Nat Commun (2016) ncbi
domestic rabbit 重组(5H14L18)
  • 免疫印迹; 小鼠; 1:250; 图 1b
  • 免疫印迹; 人类; 1:250; 图 2b
赛默飞世尔 ITGA6抗体(生活技术, 701178)被用于被用于免疫印迹在小鼠样本上浓度为1:250 (图 1b) 和 被用于免疫印迹在人类样本上浓度为1:250 (图 2b). Mol Cancer (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:75
赛默飞世尔 ITGA6抗体(R&eBioscience, 12-0495)被用于被用于流式细胞仪在小鼠样本上浓度为1:75. Science (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 1
赛默飞世尔 ITGA6抗体(eBiosence, 17-0495-82)被用于被用于流式细胞仪在小鼠样本上 (图 1). Oncotarget (2016) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 人类; 图 1
赛默飞世尔 ITGA6抗体(eBioscience, 17-0495-80)被用于被用于流式细胞仪在人类样本上 (图 1). Oncotarget (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:100; 图 4
赛默飞世尔 ITGA6抗体(eBioscience, 12-0495)被用于被用于流式细胞仪在小鼠样本上浓度为1:100 (图 4). PLoS ONE (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 1:100; 图 3a
赛默飞世尔 ITGA6抗体(eBioscience,, GoH3)被用于被用于流式细胞仪在小鼠样本上浓度为1:100 (图 3a). J Immunol (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠; 图 1
赛默飞世尔 ITGA6抗体(eBioscience, eBioGoH3(GoH3))被用于被用于流式细胞仪在小鼠样本上 (图 1). PLoS ONE (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 免疫组化-冰冻切片; 小鼠; 图 3
赛默飞世尔 ITGA6抗体(eBioscience, GoH3)被用于被用于免疫组化-冰冻切片在小鼠样本上 (图 3). Mol Biol Cell (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 人类
赛默飞世尔 ITGA6抗体(eBioscience, clone GoH3)被用于被用于流式细胞仪在人类样本上. Cell Death Differ (2015) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 免疫细胞化学; 小鼠
赛默飞世尔 ITGA6抗体(eBioscience, 12-0495-83)被用于被用于免疫细胞化学在小鼠样本上. Nat Cell Biol (2014) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠
赛默飞世尔 ITGA6抗体(eBioscience, goH3)被用于被用于流式细胞仪在小鼠样本上. J Biol Chem (2014) ncbi
小鼠 单克隆(450-30A)
  • 免疫组化-冰冻切片; 人类
赛默飞世尔 ITGA6抗体(Thermo Fisher Scientific, 450-30A)被用于被用于免疫组化-冰冻切片在人类样本上. Stem Cell Reports (2014) ncbi
domestic rabbit 单克隆(5HCLC)
  • 免疫沉淀; 人类
赛默飞世尔 ITGA6抗体(Novex-Life Technologies, 710209)被用于被用于免疫沉淀在人类样本上. Virology (2014) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠
赛默飞世尔 ITGA6抗体(eBioscience, eBioGoH3)被用于被用于流式细胞仪在小鼠样本上. PLoS ONE (2013) ncbi
大鼠 单克隆(eBioGoH3 (GoH3))
  • 流式细胞仪; 小鼠
赛默飞世尔 ITGA6抗体(eBioscience, 17-0495-80)被用于被用于流式细胞仪在小鼠样本上. Genesis (2013) ncbi
艾博抗(上海)贸易有限公司
小鼠 单克隆(MP 4F10)
  • 免疫印迹; 人类; 图 4c
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于免疫印迹在人类样本上 (图 4c). J Exp Clin Cancer Res (2021) ncbi
domestic rabbit 单克隆(EPR18124)
  • 免疫组化-石蜡切片; 小鼠; 图 5a
  • 免疫印迹; 小鼠; 图 3c
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab181551)被用于被用于免疫组化-石蜡切片在小鼠样本上 (图 5a) 和 被用于免疫印迹在小鼠样本上 (图 3c). Mucosal Immunol (2021) ncbi
domestic rabbit 单克隆(EPR18124)
  • 免疫印迹; 人类; 图 6b
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab181551)被用于被用于免疫印迹在人类样本上 (图 6b). Int J Oncol (2019) ncbi
小鼠 单克隆(450-30A)
  • 流式细胞仪; 人类; 图 2i
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab30497)被用于被用于流式细胞仪在人类样本上 (图 2i). Stem Cell Res Ther (2019) ncbi
小鼠 单克隆(MP 4F10)
  • 免疫细胞化学; 人类; 1:200; 图 2c
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于免疫细胞化学在人类样本上浓度为1:200 (图 2c). Stem Cell Res Ther (2019) ncbi
domestic rabbit 单克隆(EPR18124)
  • 免疫组化-石蜡切片; 人类; 图 4
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab181551)被用于被用于免疫组化-石蜡切片在人类样本上 (图 4). Sci Rep (2018) ncbi
domestic rabbit 多克隆
  • 免疫印迹; 犬; 图 5a
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab97760)被用于被用于免疫印迹在犬样本上 (图 5a). Oncogene (2017) ncbi
domestic rabbit 多克隆
  • 流式细胞仪; 人类; 1:50; 图 5k
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab97760)被用于被用于流式细胞仪在人类样本上浓度为1:50 (图 5k). Stem Cell Res Ther (2017) ncbi
小鼠 单克隆(MP 4F10)
  • 流式细胞仪; 鸡; 1:200; 图 3
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于流式细胞仪在鸡样本上浓度为1:200 (图 3). PLoS ONE (2017) ncbi
大鼠 单克隆(GoH3)
  • 抑制或激活实验; 人类; 图 3
  • 流式细胞仪; 人类; 图 2
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, GoH3)被用于被用于抑制或激活实验在人类样本上 (图 3) 和 被用于流式细胞仪在人类样本上 (图 2). J Virol (2017) ncbi
小鼠 单克隆(MP 4F10)
  • 免疫组化-冰冻切片; 人类; 图 1
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, MP 4F10)被用于被用于免疫组化-冰冻切片在人类样本上 (图 1). J Virol (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 1:400; 图 s5
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, 105669)被用于被用于免疫组化在小鼠样本上浓度为1:400 (图 s5). Nat Commun (2016) ncbi
小鼠 单克隆(MP 4F10)
  • 免疫组化; 人类; 1:1000; 图 4a
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于免疫组化在人类样本上浓度为1:1000 (图 4a). Biomaterials (2016) ncbi
大鼠 单克隆(GoH3)
  • 其他; 人类; 图 3a
  • 免疫细胞化学; 人类; 图 1
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, GoH3)被用于被用于其他在人类样本上 (图 3a) 和 被用于免疫细胞化学在人类样本上 (图 1). PLoS ONE (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化-冰冻切片; 家羊; 图 4
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, GoH3)被用于被用于免疫组化-冰冻切片在家羊样本上 (图 4). PLoS ONE (2015) ncbi
小鼠 单克隆(MP 4F10)
  • 免疫组化-冰冻切片; 小鼠; 1:500
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:500. Sci Rep (2014) ncbi
小鼠 单克隆(MP 4F10)
  • 免疫组化; 人类; 1:50
艾博抗(上海)贸易有限公司 ITGA6抗体(Abcam, ab20142)被用于被用于免疫组化在人类样本上浓度为1:50. J Transl Med (2014) ncbi
圣克鲁斯生物技术
小鼠 单克隆(541A11)
  • 免疫印迹; 仓鼠; 1:1000; 图 2a, 2d
  • 免疫印迹; 人类; 1:1000; 图 2a
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-47772)被用于被用于免疫印迹在仓鼠样本上浓度为1:1000 (图 2a, 2d) 和 被用于免疫印迹在人类样本上浓度为1:1000 (图 2a). Exp Cell Res (2019) ncbi
小鼠 单克隆(3H1512)
  • 免疫组化-石蜡切片; 人类; 1:100; 图 1b
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-71423)被用于被用于免疫组化-石蜡切片在人类样本上浓度为1:100 (图 1b). Exp Cell Res (2019) ncbi
大鼠 单克隆(GoH3)
  • 免疫沉淀; 仓鼠; 图 3c
  • 免疫细胞化学; 仓鼠; 图 3d
  • 免疫沉淀; 人类; 图 3c
  • 免疫细胞化学; 人类; 图 3d
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-19622)被用于被用于免疫沉淀在仓鼠样本上 (图 3c), 被用于免疫细胞化学在仓鼠样本上 (图 3d), 被用于免疫沉淀在人类样本上 (图 3c) 和 被用于免疫细胞化学在人类样本上 (图 3d). Exp Cell Res (2019) ncbi
小鼠 单克隆(F-6)
  • 流式细胞仪; 小鼠; 图 s3c
圣克鲁斯生物技术 ITGA6抗体(SantaCruz, F-6)被用于被用于流式细胞仪在小鼠样本上 (图 s3c). Cell Stem Cell (2017) ncbi
小鼠 单克隆(F-6)
  • 免疫组化-冰冻切片; 大鼠; 图 4m
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz Biotechnology, F6)被用于被用于免疫组化-冰冻切片在大鼠样本上 (图 4m). Development (2017) ncbi
小鼠 单克隆(F-6)
  • 免疫细胞化学; 小鼠; 1:10; 图 5
  • 免疫印迹; 小鼠; 1:20; 图 s10
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-374057)被用于被用于免疫细胞化学在小鼠样本上浓度为1:10 (图 5) 和 被用于免疫印迹在小鼠样本上浓度为1:20 (图 s10). Sci Rep (2016) ncbi
大鼠 单克隆(GoH3)
  • 免疫印迹; 人类; 图 6
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-19622)被用于被用于免疫印迹在人类样本上 (图 6). Oncotarget (2016) ncbi
大鼠 单克隆(GoH3)
  • 抑制或激活实验; 人类; 20 ug/ml; 图 5
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, SC-19622)被用于被用于抑制或激活实验在人类样本上浓度为20 ug/ml (图 5). J Cell Sci (2016) ncbi
小鼠 单克隆(BQ16)
  • 免疫印迹; 人类; 1:1000
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz Biotechnology, sc-13542)被用于被用于免疫印迹在人类样本上浓度为1:1000. Mol Med Rep (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:200
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz Biotechnology, sc-19622)被用于被用于流式细胞仪在人类样本上浓度为1:200. Cells Tissues Organs (2014) ncbi
小鼠 单克隆(2Q959)
  • 抑制或激活实验; 人类; 2 ug 1:25
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz Biotechnology, sc-71427)被用于被用于抑制或激活实验在人类样本上浓度为2 ug 1:25. Biomacromolecules (2014) ncbi
小鼠 单克隆(3H1512)
  • 免疫细胞化学; 小鼠; 图 3
圣克鲁斯生物技术 ITGA6抗体(Santa Cruz, sc-71423)被用于被用于免疫细胞化学在小鼠样本上 (图 3). Methods Mol Biol (2014) ncbi
安迪生物R&D
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s1a
安迪生物R&D ITGA6抗体(R&D Systems, FAB13501P)被用于被用于流式细胞仪在小鼠样本上 (图 s1a). Sci Adv (2022) ncbi
伯乐(Bio-Rad)公司
大鼠 单克隆(NKI-GoH3)
  • 免疫组化-冰冻切片; 小鼠; 1:200; 图 1b
伯乐(Bio-Rad)公司 ITGA6抗体(Serotec, NKI-GoH3)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:200 (图 1b). PLoS ONE (2017) ncbi
小鼠 单克隆(450-30A)
  • 流式细胞仪; 人类; 1:50; 表 1
伯乐(Bio-Rad)公司 ITGA6抗体(Serotec, MCA1457F)被用于被用于流式细胞仪在人类样本上浓度为1:50 (表 1). Sci Rep (2017) ncbi
大鼠 单克隆(NKI-GoH3)
  • 流式细胞仪; 小鼠; 1:200; 图 2a
伯乐(Bio-Rad)公司 ITGA6抗体(Serotec, NKI-GoH3)被用于被用于流式细胞仪在小鼠样本上浓度为1:200 (图 2a). Genes Dev (2017) ncbi
小鼠 单克隆(450-30A)
  • 免疫印迹; 人类; 图 5
伯乐(Bio-Rad)公司 ITGA6抗体(ABD Serotec, MCA1457)被用于被用于免疫印迹在人类样本上 (图 5). Breast Cancer Res Treat (2016) ncbi
大鼠 单克隆(NKI-GoH3)
  • 流式细胞仪; 人类; 表 2
伯乐(Bio-Rad)公司 ITGA6抗体(AbD Serotec, MCA699PE)被用于被用于流式细胞仪在人类样本上 (表 2). Vet Parasitol (2016) ncbi
小鼠 单克隆(450-30A)
  • 流式细胞仪; 人类; 图 2c
伯乐(Bio-Rad)公司 ITGA6抗体(Serotec, MCA1457GA)被用于被用于流式细胞仪在人类样本上 (图 2c). Food Funct (2014) ncbi
小鼠 单克隆(450-30A)
  • 流式细胞仪; 人类
伯乐(Bio-Rad)公司 ITGA6抗体(AbD Serotec, MCA1457)被用于被用于流式细胞仪在人类样本上. J Cell Biol (2012) ncbi
大鼠 单克隆(NKI-GoH3)
  • 免疫组化-冰冻切片; 小鼠; 5 ug/ml
伯乐(Bio-Rad)公司 ITGA6抗体(Serotec, MCA699)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为5 ug/ml. J Comp Neurol (2007) ncbi
美天旎
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 5a
美天旎 ITGA6抗体(Miltenyi Biotec, GoH3)被用于被用于流式细胞仪在人类样本上 (图 5a). PLoS ONE (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 s1a
美天旎 ITGA6抗体(Miltenyi, GoH3)被用于被用于流式细胞仪在人类样本上 (图 s1a). Cancer Res (2017) ncbi
大鼠 单克隆(GoH3)
  • 其他; 人类
美天旎 ITGA6抗体(Miltenyi Biotec, GoH3)被用于被用于其他在人类样本上. Am J Hum Genet (2016) ncbi
赛信通(上海)生物试剂有限公司
domestic rabbit 多克隆
  • 免疫印迹; 人类; 1:1000; 图 5b
赛信通(上海)生物试剂有限公司 ITGA6抗体(Cell Signaling, 3750)被用于被用于免疫印迹在人类样本上浓度为1:1000 (图 5b). Nat Cancer (2022) ncbi
domestic rabbit 多克隆
  • 免疫组化-冰冻切片; 小鼠; 1:1000; 图 4a
赛信通(上海)生物试剂有限公司 ITGA6抗体(Cell Signaling, 3750)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:1000 (图 4a). J Cell Sci (2017) ncbi
domestic rabbit 多克隆
  • 免疫印迹; 小鼠; 1:1000; 图 1a
赛信通(上海)生物试剂有限公司 ITGA6抗体(Cell Signaling, 3750)被用于被用于免疫印迹在小鼠样本上浓度为1:1000 (图 1a). Nat Commun (2017) ncbi
domestic rabbit 多克隆
  • 免疫印迹; 小鼠; 图 2c
赛信通(上海)生物试剂有限公司 ITGA6抗体(Cell Signaling Technology, 3750)被用于被用于免疫印迹在小鼠样本上 (图 2c). Oncogene (2017) ncbi
National Institutes of Health AIDS Research and Reference Reagent Program
小鼠 单克隆(ACT-1)
  • 流式细胞仪; 人类; 图 s1d
National Institutes of Health AIDS Research and Reference Reagent Program ITGA6抗体(The AIDS Reagent Program, Act-1)被用于被用于流式细胞仪在人类样本上 (图 s1d). Proc Natl Acad Sci U S A (2018) ncbi
小鼠 单克隆(ACT-1)
  • 流式细胞仪; 人类; 图 9
National Institutes of Health AIDS Research and Reference Reagent Program ITGA6抗体(AIDS Research and Reference Reagent Program, Act-1)被用于被用于流式细胞仪在人类样本上 (图 9). Sci Rep (2016) ncbi
小鼠 单克隆(ACT-1)
  • 流式细胞仪; 人类; 图 8a
National Institutes of Health AIDS Research and Reference Reagent Program ITGA6抗体(National Institutes of Health AIDS Reagent Program, Act-1)被用于被用于流式细胞仪在人类样本上 (图 8a). J Allergy Clin Immunol (2016) ncbi
碧迪BD
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:1000; 图 2a
碧迪BD ITGA6抗体(BD Biosciences, 562582)被用于被用于流式细胞仪在人类样本上浓度为1:1000 (图 2a). Nat Commun (2021) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 图 s9a
碧迪BD ITGA6抗体(BD Pharmingen, 555734)被用于被用于免疫组化在小鼠样本上 (图 s9a). Proc Natl Acad Sci U S A (2021) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:500
碧迪BD ITGA6抗体(BD Biosciences, G0H3)被用于被用于流式细胞仪在小鼠样本上浓度为1:500. Blood (2020) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 1c
碧迪BD ITGA6抗体(BD PharMingen, 555735)被用于被用于流式细胞仪在小鼠样本上 (图 1c). Cell Rep (2019) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 1a
碧迪BD ITGA6抗体(BD Pharmingen, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 1a). J Clin Invest (2018) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:100; 图 1e
碧迪BD ITGA6抗体(BD Biosciences, 555736)被用于被用于流式细胞仪在人类样本上浓度为1:100 (图 1e). J Pathol (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; 犬; 图 5c
碧迪BD ITGA6抗体(BD Pharmingen, 555734)被用于被用于免疫细胞化学在犬样本上 (图 5c). Oncogene (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; 人类; 2 ug/ml; 图 s1
碧迪BD ITGA6抗体(BD Pharmingen, 555734)被用于被用于免疫细胞化学在人类样本上浓度为2 ug/ml (图 s1). Biol Open (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 人类; 1:200; 图 1a
碧迪BD ITGA6抗体(BD, 555734)被用于被用于免疫组化在人类样本上浓度为1:200 (图 1a). J Cell Sci (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:100; 图 3a
碧迪BD ITGA6抗体(BD Bioscience, 551129)被用于被用于流式细胞仪在小鼠样本上浓度为1:100 (图 3a). Cell (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:50; 图 st2
碧迪BD ITGA6抗体(BD Biosciences, 5625820)被用于被用于流式细胞仪在人类样本上浓度为1:50 (图 st2). Sci Rep (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 2b
碧迪BD ITGA6抗体(BD Pharmingen, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 2b). Oncotarget (2017) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 3d
碧迪BD ITGA6抗体(BD Biosciences, 555735)被用于被用于流式细胞仪在小鼠样本上 (图 3d). Oncogene (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; 人类; 1:500; 图 4c
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于免疫细胞化学在人类样本上浓度为1:500 (图 4c). J Cell Sci (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 人类; 1:100; 图 5g
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于免疫组化在人类样本上浓度为1:100 (图 5g). Burns Trauma (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:100; 图 3a
碧迪BD ITGA6抗体(BD, GoH3)被用于被用于流式细胞仪在人类样本上浓度为1:100 (图 3a). J Clin Invest (2016) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; 人类; 图 4c
碧迪BD ITGA6抗体(BD Pharmingen, GoH3)被用于被用于免疫细胞化学在人类样本上 (图 4c). Prostate (2017) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化-冰冻切片; 小鼠; 1:100
碧迪BD ITGA6抗体(BD Pharmigen, 555734)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:100. Nat Commun (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 1a
碧迪BD ITGA6抗体(BD Biosciences, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 1a). Stem Cell Res (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s12
碧迪BD ITGA6抗体(Pharmingen, 551129)被用于被用于流式细胞仪在小鼠样本上 (图 s12). Cell Res (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:200; 图 4
碧迪BD ITGA6抗体(BD Biosciences, 555735)被用于被用于流式细胞仪在人类样本上浓度为1:200 (图 4). Clin Cancer Res (2016) ncbi
大鼠 单克隆(GoH3)
  • 其他; 人类; 500 ug/ml; 图 1
碧迪BD ITGA6抗体(Becton Dickinson, 555734)被用于被用于其他在人类样本上浓度为500 ug/ml (图 1). J Extracell Vesicles (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:200; 图 4c
  • 流式细胞仪; 人类; 1:200; 图 2d
  • 免疫细胞化学; 人类; 1:50; 图 2c
碧迪BD ITGA6抗体(BD Biosciences, 555735)被用于被用于流式细胞仪在小鼠样本上浓度为1:200 (图 4c), 被用于流式细胞仪在人类样本上浓度为1:200 (图 2d) 和 被用于免疫细胞化学在人类样本上浓度为1:50 (图 2c). Mol Cancer (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 st1
碧迪BD ITGA6抗体(BD, 555736)被用于被用于流式细胞仪在人类样本上 (图 st1). Exp Cell Res (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s1
碧迪BD ITGA6抗体(BD Biosciences, 555735)被用于被用于流式细胞仪在小鼠样本上 (图 s1). Nat Commun (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:100; 图 1s2
碧迪BD ITGA6抗体(Pharmingen, 555735)被用于被用于流式细胞仪在小鼠样本上浓度为1:100 (图 1s2). elife (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:100; 图 s1a
碧迪BD ITGA6抗体(BD Bioscience, 551129)被用于被用于流式细胞仪在小鼠样本上浓度为1:100 (图 s1a). Nat Cell Biol (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 s1a, s1b, s1c
碧迪BD ITGA6抗体(BD, 551129)被用于被用于流式细胞仪在人类样本上 (图 s1a, s1b, s1c). Science (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 2
碧迪BD ITGA6抗体(BD Biosciences, #551129)被用于被用于流式细胞仪在人类样本上 (图 2). Proteomics (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化-冰冻切片; 小鼠; 1:750; 图 s6
碧迪BD ITGA6抗体(Pharmingen, 555734)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:750 (图 s6). Proc Natl Acad Sci U S A (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 4a
碧迪BD ITGA6抗体(BD, 555736)被用于被用于流式细胞仪在小鼠样本上 (图 4a). Oncogene (2016) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 1
  • 流式细胞仪; 小鼠; 图 2
碧迪BD ITGA6抗体(BD Biosciences, 555735)被用于被用于流式细胞仪在人类样本上 (图 1) 和 被用于流式细胞仪在小鼠样本上 (图 2). Stem Cell Reports (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 2
碧迪BD ITGA6抗体(Bioscience, 555736)被用于被用于流式细胞仪在小鼠样本上 (图 2). Oncotarget (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 1:200; 图 6
碧迪BD ITGA6抗体(BD-PharMingen, 555734)被用于被用于免疫组化在小鼠样本上浓度为1:200 (图 6). Nat Cell Biol (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 2
碧迪BD ITGA6抗体(BD Bioscience, 551129)被用于被用于流式细胞仪在人类样本上 (图 2). Oncotarget (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 图 3
碧迪BD ITGA6抗体(BD Biosciences, GoH3)被用于被用于流式细胞仪在人类样本上 (图 3). J Clin Invest (2015) ncbi
大鼠 单克隆(GoH3)
  • 抑制或激活实验; 小鼠; 图 3
  • 流式细胞仪; 小鼠
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于抑制或激活实验在小鼠样本上 (图 3) 和 被用于流式细胞仪在小鼠样本上. Mol Biol Cell (2015) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:50
碧迪BD ITGA6抗体(BD, 551129)被用于被用于流式细胞仪在人类样本上浓度为1:50. Cell Stem Cell (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; 人类; 图 s1
碧迪BD ITGA6抗体(BD PharMingen, 555734)被用于被用于免疫细胞化学在人类样本上 (图 s1). Cell Cycle (2015) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠; 1:100
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于免疫组化在小鼠样本上浓度为1:100. PLoS ONE (2014) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类
碧迪BD ITGA6抗体(BD Biosciences, GoH3)被用于被用于流式细胞仪在人类样本上. Neoplasia (2014) ncbi
大鼠 单克隆(GoH3)
  • 免疫组化; 小鼠
碧迪BD ITGA6抗体(BD Pharmingen, 555734)被用于被用于免疫组化在小鼠样本上. J Biol Chem (2014) ncbi
大鼠 单克隆(GoH3)
  • 免疫细胞化学; pigs
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于免疫细胞化学在pigs 样本上. Acta Biomater (2014) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类
  • 免疫细胞化学; 人类
碧迪BD ITGA6抗体(BD Biosciences, 555734)被用于被用于流式细胞仪在人类样本上 和 被用于免疫细胞化学在人类样本上. Cytotechnology (2014) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 图 s2
碧迪BD ITGA6抗体(BD Pharmingen, GoH3)被用于被用于流式细胞仪在小鼠样本上 (图 s2). Oncogene (2014) ncbi
大鼠 单克隆(GoH3)
  • 抑制或激活实验; 人类
  • 流式细胞仪; 人类
  • 免疫细胞化学; 人类
碧迪BD ITGA6抗体(BD Biosciences, GoH3)被用于被用于抑制或激活实验在人类样本上, 被用于流式细胞仪在人类样本上 和 被用于免疫细胞化学在人类样本上. J Biol Chem (2013) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 小鼠; 1:200
碧迪BD ITGA6抗体(BD Biosciences, 555736)被用于被用于流式细胞仪在小鼠样本上浓度为1:200. Genes Dev (2013) ncbi
大鼠 单克隆(GoH3)
  • 流式细胞仪; 人类; 1:5
碧迪BD ITGA6抗体(BD Pharmingen, 555735)被用于被用于流式细胞仪在人类样本上浓度为1:5. Stem Cells (2013) ncbi
文章列表
  1. Eikmans M, van der Keur C, Anholts J, Drabbels J, van Beelen E, de Sousa Lopes S, et al. Primary Trophoblast Cultures: Characterization of HLA Profiles and Immune Cell Interactions. Front Immunol. 2022;13:814019 pubmed 出版商
  2. Liu M, Liu Z, Chen Y, Peng S, Yang J, Chen C, et al. Dendritic epidermal T cells secreting exosomes promote the proliferation of epidermal stem cells to enhance wound re-epithelialization. Stem Cell Res Ther. 2022;13:121 pubmed 出版商
  3. van der Heide V, Jangra S, Cohen P, Rathnasinghe R, Aslam S, Aydillo T, et al. Limited extent and consequences of pancreatic SARS-CoV-2 infection. Cell Rep. 2022;38:110508 pubmed 出版商
  4. Lopes N, Boucherit N, Santamaria J, Provin N, Charaix J, Ferrier P, et al. Thymocytes trigger self-antigen-controlling pathways in immature medullary thymic epithelial stages. elife. 2022;11: pubmed 出版商
  5. Dai J, Cimino P, Gouin K, Grzelak C, Barrett A, Lim A, et al. Astrocytic laminin-211 drives disseminated breast tumor cell dormancy in brain. Nat Cancer. 2022;3:25-42 pubmed 出版商
  6. Kumar B, Adebayo A, Prasad M, Capitano M, Wang R, Bhat Nakshatri P, et al. Tumor collection/processing under physioxia uncovers highly relevant signaling networks and drug sensitivity. Sci Adv. 2022;8:eabh3375 pubmed 出版商
  7. 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 出版商
  8. Laine A, Nagelli S, Farrington C, Butt U, Cvrljevic A, Vainonen J, et al. CIP2A Interacts with TopBP1 and Drives Basal-Like Breast Cancer Tumorigenesis. Cancer Res. 2021;81:4319-4331 pubmed 出版商
  9. Zhu J, Cai T, Zhou J, Du W, Zeng Y, Liu T, et al. CD151 drives cancer progression depending on integrin α3β1 through EGFR signaling in non-small cell lung cancer. J Exp Clin Cancer Res. 2021;40:192 pubmed 出版商
  10. Tsutsui K, Machida H, Nakagawa A, Ahn K, Morita R, Sekiguchi K, et al. Mapping the molecular and structural specialization of the skin basement membrane for inter-tissue interactions. Nat Commun. 2021;12:2577 pubmed 出版商
  11. Fayad R, Rojas M, Partisani M, Finetti P, Dib S, Abélanet S, et al. EFA6B regulates a stop signal for collective invasion in breast cancer. Nat Commun. 2021;12:2198 pubmed 出版商
  12. Krausová A, Buresova P, Sarnova L, Oyman Eyrilmez G, Skarda J, Wohl P, et al. Plectin ensures intestinal epithelial integrity and protects colon against colitis. Mucosal Immunol. 2021;14:691-702 pubmed 出版商
  13. Choi J, Sebastian C, Ferrer C, Lewis C, Sade Feldman M, LaSalle T, et al. A unique subset of glycolytic tumour-propagating cells drives squamous cell carcinoma. Nat Metab. 2021;3:182-195 pubmed 出版商
  14. Vong K, Ma T, Li B, Leung T, Nong W, Ngai S, et al. SOX9-COL9A3-dependent regulation of choroid plexus epithelial polarity governs blood-cerebrospinal fluid barrier integrity. Proc Natl Acad Sci U S A. 2021;118: pubmed 出版商
  15. Mevel R, Steiner I, Mason S, Galbraith L, Patel R, Fadlullah M, et al. RUNX1 marks a luminal castration-resistant lineage established at the onset of prostate development. elife. 2020;9: pubmed 出版商
  16. Tremblay M, Viala S, Shafer M, Graham Paquin A, Liu C, Bouchard M. Regulation of stem/progenitor cell maintenance by BMP5 in prostate homeostasis and cancer initiation. elife. 2020;9: pubmed 出版商
  17. Xi L, Carroll T, Matos I, Luo J, Polak L, Pasolli H, et al. m6A RNA methylation impacts fate choices during skin morphogenesis. elife. 2020;9: pubmed 出版商
  18. Leelatian N, Sinnaeve J, Mistry A, Barone S, Brockman A, Diggins K, et al. Unsupervised machine learning reveals risk stratifying glioblastoma tumor cells. elife. 2020;9: pubmed 出版商
  19. Gang E, Kim H, Hsieh Y, Ruan Y, Ogana H, Lee S, et al. Integrin α6 mediates the drug resistance of acute lymphoblastic B-cell leukemia. Blood. 2020;136:210-223 pubmed 出版商
  20. Engelbrecht E, Lévesque M, He L, Vanlandewijck M, Nitzsche A, Niazi H, et al. Sphingosine 1-phosphate-regulated transcriptomes in heterogenous arterial and lymphatic endothelium of the aorta. elife. 2020;9: pubmed 出版商
  21. Belote R, Simon S. Ca2+ transients in melanocyte dendrites and dendritic spine-like structures evoked by cell-to-cell signaling. J Cell Biol. 2020;219: pubmed 出版商
  22. Yuan M, Xie F, Xia X, Zhong K, Lian L, Zhang S, et al. UNC5C‑knockdown enhances the growth and metastasis of breast cancer cells by potentiating the integrin α6/β4 signaling pathway. Int J Oncol. 2019;: pubmed 出版商
  23. Laurin M, Gomez N, Levorse J, Sendoel A, Sribour M, Fuchs E. An RNAi screen unravels the complexities of Rho GTPase networks in skin morphogenesis. elife. 2019;8: pubmed 出版商
  24. Ombrato L, Nolan E, Kurelac I, Mavousian A, Bridgeman V, Heinze I, et al. Metastatic-niche labelling reveals parenchymal cells with stem features. Nature. 2019;572:603-608 pubmed 出版商
  25. Katsuda T, Matsuzaki J, Yamaguchi T, Yamada Y, Prieto Vila M, Hosaka K, et al. Generation of human hepatic progenitor cells with regenerative and metabolic capacities from primary hepatocytes. elife. 2019;8: pubmed 出版商
  26. Menon V, Thomas R, Elgueta C, Horl M, Osborn T, Hallett P, et al. Comprehensive Cell Surface Antigen Analysis Identifies Transferrin Receptor Protein-1 (CD71) as a Negative Selection Marker for Human Neuronal Cells. Stem Cells. 2019;37:1293-1306 pubmed 出版商
  27. Gross K, Zhou W, Breindel J, Ouyang J, Jin D, Sokol E, et al. Loss of Slug Compromises DNA Damage Repair and Accelerates Stem Cell Aging in Mammary Epithelium. Cell Rep. 2019;28:394-407.e6 pubmed 出版商
  28. McGinnis C, Patterson D, Winkler J, Conrad D, Hein M, Srivastava V, et al. MULTI-seq: sample multiplexing for single-cell RNA sequencing using lipid-tagged indices. Nat Methods. 2019;: pubmed 出版商
  29. Zhou H, Wang L, Zhang C, Hu J, Chen J, Du W, et al. Feasibility of repairing full-thickness skin defects by iPSC-derived epithelial stem cells seeded on a human acellular amniotic membrane. Stem Cell Res Ther. 2019;10:155 pubmed 出版商
  30. Wilkinson A, Ishida R, Kikuchi M, Sudo K, Morita M, Crisostomo R, et al. Long-term ex vivo haematopoietic-stem-cell expansion allows nonconditioned transplantation. Nature. 2019;: pubmed 出版商
  31. Wu Y, Tan X, Liu P, Yang Y, Huang Y, Liu X, et al. ITGA6 and RPSA synergistically promote pancreatic cancer invasion and metastasis via PI3K and MAPK signaling pathways. Exp Cell Res. 2019;379:30-47 pubmed 出版商
  32. Barros Silva J, Linn D, Steiner I, Guo G, Ali A, Pakula H, et al. Single-Cell Analysis Identifies LY6D as a Marker Linking Castration-Resistant Prostate Luminal Cells to Prostate Progenitors and Cancer. Cell Rep. 2018;25:3504-3518.e6 pubmed 出版商
  33. Dias J, Boulouis C, Gorin J, van den Biggelaar R, Lal K, Gibbs A, et al. The CD4-CD8- MAIT cell subpopulation is a functionally distinct subset developmentally related to the main CD8+ MAIT cell pool. Proc Natl Acad Sci U S A. 2018;115:E11513-E11522 pubmed 出版商
  34. Li L, Guturi K, Gautreau B, Patel P, Saad A, Morii M, et al. Ubiquitin ligase RNF8 suppresses Notch signaling to regulate mammary development and tumorigenesis. J Clin Invest. 2018;128:4525-4542 pubmed 出版商
  35. Russo V, Klein T, Lim D, Solis N, Machado Y, Hiroyasu S, et al. Granzyme B is elevated in autoimmune blistering diseases and cleaves key anchoring proteins of the dermal-epidermal junction. Sci Rep. 2018;8:9690 pubmed 出版商
  36. Casey A, Sinha A, Singhania R, Livingstone J, Waterhouse P, Tharmapalan P, et al. Mammary molecular portraits reveal lineage-specific features and progenitor cell vulnerabilities. J Cell Biol. 2018;217:2951-2974 pubmed 出版商
  37. Weiss J, Davies L, Karwan M, Ileva L, Ozaki M, Cheng R, et al. Itaconic acid mediates crosstalk between macrophage metabolism and peritoneal tumors. J Clin Invest. 2018;128:3794-3805 pubmed 出版商
  38. Liakath Ali K, Mills E, Sequeira I, Lichtenberger B, Pisco A, Sipilä K, et al. An evolutionarily conserved ribosome-rescue pathway maintains epidermal homeostasis. Nature. 2018;556:376-380 pubmed 出版商
  39. Tusi B, Wolock S, Weinreb C, Hwang Y, Hidalgo D, Zilionis R, et al. Population snapshots predict early haematopoietic and erythroid hierarchies. Nature. 2018;555:54-60 pubmed 出版商
  40. Jeffery H, McDowell P, Lutz P, Wawman R, Roberts S, Bagnall C, et al. Human intrahepatic ILC2 are IL-13positive amphiregulinpositive and their frequency correlates with model of end stage liver disease score. PLoS ONE. 2017;12:e0188649 pubmed 出版商
  41. Peuhu E, Salomaa S, De Franceschi N, Potter C, Sundberg J, Pouwels J. Integrin beta 1 inhibition alleviates the chronic hyperproliferative dermatitis phenotype of SHARPIN-deficient mice. PLoS ONE. 2017;12:e0186628 pubmed 出版商
  42. Tothova Z, Krill Burger J, Popova K, Landers C, Sievers Q, Yudovich D, et al. Multiplex CRISPR/Cas9-Based Genome Editing in Human Hematopoietic Stem Cells Models Clonal Hematopoiesis and Myeloid Neoplasia. Cell Stem Cell. 2017;21:547-555.e8 pubmed 出版商
  43. Roberts S, Dun X, Doddrell R, Mindos T, Drake L, Onaitis M, et al. Sox2 expression in Schwann cells inhibits myelination in vivo and induces influx of macrophages to the nerve. Development. 2017;144:3114-3125 pubmed 出版商
  44. Oliemuller E, Kogata N, Bland P, Kriplani D, Daley F, Haider S, et al. SOX11 promotes invasive growth and ductal carcinoma in situ progression. J Pathol. 2017;243:193-207 pubmed 出版商
  45. Zhang K, Myllymäki S, Gao P, Devarajan R, Kytölä V, Nykter M, et al. Oncogenic K-Ras upregulates ITGA6 expression via FOSL1 to induce anoikis resistance and synergizes with αV-Class integrins to promote EMT. Oncogene. 2017;36:5681-5694 pubmed 出版商
  46. Bagchi S, He Y, Zhang H, Cao L, Van Rhijn I, Moody D, et al. CD1b-autoreactive T cells contribute to hyperlipidemia-induced skin inflammation in mice. J Clin Invest. 2017;127:2339-2352 pubmed 出版商
  47. Samson E, Tsao D, Zimak J, McLaughlin R, Trenton N, Mace E, et al. The coordinating role of IQGAP1 in the regulation of local, endosome-specific actin networks. Biol Open. 2017;6:785-799 pubmed 出版商
  48. Frank S, Berger P, Ljungman M, Miranti C. Human prostate luminal cell differentiation requires NOTCH3 induction by p38-MAPK and MYC. J Cell Sci. 2017;130:1952-1964 pubmed 出版商
  49. Ge Y, Gomez N, Adam R, Nikolova M, Yang H, Verma A, et al. Stem Cell Lineage Infidelity Drives Wound Repair and Cancer. Cell. 2017;169:636-650.e14 pubmed 出版商
  50. Iglesia R, Prado M, Cruz L, Martins V, Santos T, Lopes M. Engagement of cellular prion protein with the co-chaperone Hsp70/90 organizing protein regulates the proliferation of glioblastoma stem-like cells. Stem Cell Res Ther. 2017;8:76 pubmed 出版商
  51. Gaggianesi M, Turdo A, Chinnici A, Lipari E, Apuzzo T, Benfante A, et al. IL4 Primes the Dynamics of Breast Cancer Progression via DUSP4 Inhibition. Cancer Res. 2017;77:3268-3279 pubmed 出版商
  52. Wang X, Chen H, Tian R, Zhang Y, Drutskaya M, Wang C, et al. Macrophages induce AKT/β-catenin-dependent Lgr5+ stem cell activation and hair follicle regeneration through TNF. Nat Commun. 2017;8:14091 pubmed 出版商
  53. Di Maggio N, Martella E, Frismantiene A, Resink T, Schreiner S, Lucarelli E, et al. Extracellular matrix and α5β1 integrin signaling control the maintenance of bone formation capacity by human adipose-derived stromal cells. Sci Rep. 2017;7:44398 pubmed 出版商
  54. Reynolds L, D Amico G, Lechertier T, Papachristodoulou A, Muñoz Félix J, De Arcangelis A, et al. Dual role of pericyte ?6?1-integrin in tumour blood vessels. J Cell Sci. 2017;130:1583-1595 pubmed 出版商
  55. Zhao C, Cai S, Shin K, Lim A, Kalisky T, Lu W, et al. Stromal Gli2 activity coordinates a niche signaling program for mammary epithelial stem cells. Science. 2017;356: pubmed 出版商
  56. Zhang Y, Wang Y, Zuo Q, Li D, Zhang W, Wang F, et al. CRISPR/Cas9 mediated chicken Stra8 gene knockout and inhibition of male germ cell differentiation. PLoS ONE. 2017;12:e0172207 pubmed 出版商
  57. Ritschka B, Storer M, Mas A, Heinzmann F, Ortells M, Morton J, et al. The senescence-associated secretory phenotype induces cellular plasticity and tissue regeneration. Genes Dev. 2017;31:172-183 pubmed 出版商
  58. Gamal W, Treskes P, Samuel K, Sullivan G, Siller R, Srsen V, et al. Low-dose acetaminophen induces early disruption of cell-cell tight junctions in human hepatic cells and mouse liver. Sci Rep. 2017;7:37541 pubmed 出版商
  59. Dall G, Vieusseux J, Korach K, Arao Y, Hewitt S, Hamilton K, et al. SCA-1 Labels a Subset of Estrogen-Responsive Bipotential Repopulating Cells within the CD24+ CD49fhi Mammary Stem Cell-Enriched Compartment. Stem Cell Reports. 2017;8:417-431 pubmed 出版商
  60. Muranen T, Iwanicki M, Curry N, Hwang J, DuBois C, Coloff J, et al. Starved epithelial cells uptake extracellular matrix for survival. Nat Commun. 2017;8:13989 pubmed 出版商
  61. Britschgi A, Duss S, Kim S, Couto J, Brinkhaus H, Koren S, et al. The Hippo kinases LATS1 and 2 control human breast cell fate via crosstalk with ERα. Nature. 2017;541:541-545 pubmed 出版商
  62. Corbineau S, Lassalle B, Givelet M, Souissi Sarahoui I, Firlej V, Romeo P, et al. Spermatogonial stem cells and progenitors are refractory to reprogramming to pluripotency by the transcription factors Oct3/4, c-Myc, Sox2 and Klf4. Oncotarget. 2017;8:10050-10063 pubmed 出版商
  63. Storm R, Persson B, Skalman L, Frängsmyr L, Lindström M, Rankin G, et al. Human Adenovirus Type 37 Uses αVβ1 and α3β1 Integrins for Infection of Human Corneal Cells. J Virol. 2017;91: pubmed 出版商
  64. Yokota Nakatsuma A, Ohoka Y, Takeuchi H, Song S, Iwata M. Beta 1-integrin ligation and TLR ligation enhance GM-CSF-induced ALDH1A2 expression in dendritic cells, but differentially regulate their anti-inflammatory properties. Sci Rep. 2016;6:37914 pubmed 出版商
  65. Hamada H, Okae H, Toh H, Chiba H, Hiura H, Shirane K, et al. Allele-Specific Methylome and Transcriptome Analysis Reveals Widespread Imprinting in the Human Placenta. Am J Hum Genet. 2016;99:1045-1058 pubmed 出版商
  66. Chiche A, Moumen M, Romagnoli M, Petit V, Lasla H, Jézéquel P, et al. p53 deficiency induces cancer stem cell pool expansion in a mouse model of triple-negative breast tumors. Oncogene. 2017;36:2355-2365 pubmed 出版商
  67. Skowron K, Pitroda S, Namm J, Balogun O, Beckett M, Zenner M, et al. Basal Tumor Cell Isolation and Patient-Derived Xenograft Engraftment Identify High-Risk Clinical Bladder Cancers. Sci Rep. 2016;6:35854 pubmed 出版商
  68. Frolikova M, Sebkova N, Ded L, Dvorakova Hortova K. Characterization of CD46 and ?1 integrin dynamics during sperm acrosome reaction. Sci Rep. 2016;6:33714 pubmed 出版商
  69. Li L, Chen J, Xiong G, St Clair D, Xu W, Xu R. Increased ROS production in non-polarized mammary epithelial cells induces monocyte infiltration in 3D culture. J Cell Sci. 2017;130:190-202 pubmed 出版商
  70. Hahn J, McFarland K, Combs K, Supp D. Partial epithelial-mesenchymal transition in keloid scars: regulation of keloid keratinocyte gene expression by transforming growth factor-?1. Burns Trauma. 2016;4:30 pubmed 出版商
  71. Jones R, Robinson T, Liu J, Shrestha M, Voisin V, Ju Y, et al. RB1 deficiency in triple-negative breast cancer induces mitochondrial protein translation. J Clin Invest. 2016;126:3739-3757 pubmed 出版商
  72. Greenwood E, Maisel S, Ebertz D, Russ A, Pandey R, SCHROEDER J. Llgl1 prevents metaplastic survival driven by epidermal growth factor dependent migration. Oncotarget. 2016;7:60776-60792 pubmed 出版商
  73. Berger P, Winn M, Miranti C. Miz1, a Novel Target of ING4, Can Drive Prostate Luminal Epithelial Cell Differentiation. Prostate. 2017;77:49-59 pubmed 出版商
  74. Gerling M, Büller N, Kirn L, Joost S, Frings O, Englert B, et al. Stromal Hedgehog signalling is downregulated in colon cancer and its restoration restrains tumour growth. Nat Commun. 2016;7:12321 pubmed 出版商
  75. Godinho Santos A, Hance A, Gonçalves J, Mammano F. CIB1 and CIB2 are HIV-1 helper factors involved in viral entry. Sci Rep. 2016;6:30927 pubmed 出版商
  76. Gunnarsson A, Christensen R, Li J, Jensen U. Global gene expression and comparison between multiple populations in the mouse epidermis. Stem Cell Res. 2016;17:191-202 pubmed 出版商
  77. Lowndes M, Rotherham M, Price J, El Haj A, Habib S. Immobilized WNT Proteins Act as a Stem Cell Niche for Tissue Engineering. Stem Cell Reports. 2016;7:126-37 pubmed 出版商
  78. Berens E, Sharif G, Schmidt M, Yan G, Shuptrine C, Weiner L, et al. Keratin-associated protein 5-5 controls cytoskeletal function and cancer cell vascular invasion. Oncogene. 2017;36:593-605 pubmed 出版商
  79. Duru N, Gernapudi R, Lo P, Yao Y, Wolfson B, Zhang Y, et al. Characterization of the CD49f+/CD44+/CD24- single-cell derived stem cell population in basal-like DCIS cells. Oncotarget. 2016;7:47511-47525 pubmed 出版商
  80. Quantius J, Schmoldt C, Vazquez Armendariz A, Becker C, El Agha E, Wilhelm J, et al. Influenza Virus Infects Epithelial Stem/Progenitor Cells of the Distal Lung: Impact on Fgfr2b-Driven Epithelial Repair. PLoS Pathog. 2016;12:e1005544 pubmed 出版商
  81. Sigl V, Owusu Boaitey K, Joshi P, Kavirayani A, Wirnsberger G, Novatchkova M, et al. RANKL/RANK control Brca1 mutation- . Cell Res. 2016;26:761-74 pubmed 出版商
  82. Wang B, Qi T, Chen S, Ye L, Huang Z, Li H. RFX1 maintains testis cord integrity by regulating the expression of Itga6 in male mouse embryos. Mol Reprod Dev. 2016;83:606-14 pubmed 出版商
  83. Cichon M, Moruzzi M, Shqau T, Miller E, Mehner C, Ethier S, et al. MYC Is a Crucial Mediator of TGF?-Induced Invasion in Basal Breast Cancer. Cancer Res. 2016;76:3520-30 pubmed 出版商
  84. Zhang H, Prado K, Zhang K, Peek E, Lee J, Wang X, et al. Biased Expression of the FOXP3Δ3 Isoform in Aggressive Bladder Cancer Mediates Differentiation and Cisplatin Chemotherapy Resistance. Clin Cancer Res. 2016;22:5349-5361 pubmed
  85. Welte T, Kim I, Tian L, Gao X, Wang H, Li J, et al. Oncogenic mTOR signalling recruits myeloid-derived suppressor cells to promote tumour initiation. Nat Cell Biol. 2016;18:632-44 pubmed 出版商
  86. Thakkar A, Wang B, Picon Ruiz M, Buchwald P, Ince T. Vitamin D and androgen receptor-targeted therapy for triple-negative breast cancer. Breast Cancer Res Treat. 2016;157:77-90 pubmed 出版商
  87. Li Z, Hodgkinson T, Gothard E, Boroumand S, Lamb R, Cummins I, et al. Epidermal Notch1 recruits RORγ(+) group 3 innate lymphoid cells to orchestrate normal skin repair. Nat Commun. 2016;7:11394 pubmed 出版商
  88. Belov L, Matic K, Hallal S, Best O, Mulligan S, Christopherson R. Extensive surface protein profiles of extracellular vesicles from cancer cells may provide diagnostic signatures from blood samples. J Extracell Vesicles. 2016;5:25355 pubmed 出版商
  89. Yosef R, Pilpel N, Tokarsky Amiel R, Biran A, Ovadya Y, Cohen S, et al. Directed elimination of senescent cells by inhibition of BCL-W and BCL-XL. Nat Commun. 2016;7:11190 pubmed 出版商
  90. An X, Zhao Z, Luo Y, Zhang R, Tang X, Hao D, et al. Netrin-1 suppresses the MEK/ERK pathway and ITGB4 in pancreatic cancer. Oncotarget. 2016;7:24719-33 pubmed 出版商
  91. Brooks D, Schwab L, Krutilina R, Parke D, Sethuraman A, Hoogewijs D, et al. ITGA6 is directly regulated by hypoxia-inducible factors and enriches for cancer stem cell activity and invasion in metastatic breast cancer models. Mol Cancer. 2016;15:26 pubmed 出版商
  92. Moreira M, Costa Pereira C, Alves M, Marteleto B, Ribeiro V, Peruhype Magalhães V, et al. Vaccination against canine leishmaniosis increases the phagocytic activity, nitric oxide production and expression of cell activation/migration molecules in neutrophils and monocytes. Vet Parasitol. 2016;220:33-45 pubmed 出版商
  93. Lakschevitz F, Hassanpour S, Rubin A, Fine N, Sun C, Glogauer M. Identification of neutrophil surface marker changes in health and inflammation using high-throughput screening flow cytometry. Exp Cell Res. 2016;342:200-9 pubmed 出版商
  94. Muhamed I, Wu J, Sehgal P, Kong X, Tajik A, Wang N, et al. E-cadherin-mediated force transduction signals regulate global cell mechanics. J Cell Sci. 2016;129:1843-54 pubmed 出版商
  95. Nair S, Zhang X, Chiang H, Jahid M, Wang Y, Garza P, et al. Genetic suppression reveals DNA repair-independent antagonism between BRCA1 and COBRA1 in mammary gland development. Nat Commun. 2016;7:10913 pubmed 出版商
  96. Wang L, Siegenthaler J, Dowell R, Yi R. Foxc1 reinforces quiescence in self-renewing hair follicle stem cells. Science. 2016;351:613-7 pubmed 出版商
  97. Chang C, Hale S, Cox C, Blair A, Kronsteiner B, Grabowska R, et al. Junctional Adhesion Molecule-A Is Highly Expressed on Human Hematopoietic Repopulating Cells and Associates with the Key Hematopoietic Chemokine Receptor CXCR4. Stem Cells. 2016;34:1664-78 pubmed 出版商
  98. Theodosiou M, Widmaier M, Böttcher R, Rognoni E, Veelders M, Bharadwaj M, et al. Kindlin-2 cooperates with talin to activate integrins and induces cell spreading by directly binding paxillin. elife. 2016;5:e10130 pubmed 出版商
  99. Kanderová V, Kuzilkova D, Stuchly J, Vaskova M, Brdicka T, Fiser K, et al. High-resolution Antibody Array Analysis of Childhood Acute Leukemia Cells. Mol Cell Proteomics. 2016;15:1246-61 pubmed 出版商
  100. van Essen T, van Zijl L, Possemiers T, Mulder A, Zwart S, Chou C, et al. Biocompatibility of a fish scale-derived artificial cornea: Cytotoxicity, cellular adhesion and phenotype, and in vivo immunogenicity. Biomaterials. 2016;81:36-45 pubmed 出版商
  101. Schneck H, Gierke B, Uppenkamp F, Behrens B, Niederacher D, Stoecklein N, et al. EpCAM-Independent Enrichment of Circulating Tumor Cells in Metastatic Breast Cancer. PLoS ONE. 2015;10:e0144535 pubmed 出版商
  102. Sun J, Chen X, Zhang L, Wang J, Diehn M. Yap1 promotes the survival and self-renewal of breast tumor initiating cells via inhibiting Smad3 signaling. Oncotarget. 2016;7:9692-706 pubmed 出版商
  103. Ge Y, Zhang L, Nikolova M, Reva B, Fuchs E. Strand-specific in vivo screen of cancer-associated miRNAs unveils a role for miR-21(∗) in SCC progression. Nat Cell Biol. 2016;18:111-21 pubmed 出版商
  104. Notta F, Zandi S, Takayama N, Dobson S, Gan O, Wilson G, et al. Distinct routes of lineage development reshape the human blood hierarchy across ontogeny. Science. 2016;351:aab2116 pubmed 出版商
  105. Adachi T, Kobayashi T, Sugihara E, Yamada T, Ikuta K, Pittaluga S, et al. Hair follicle-derived IL-7 and IL-15 mediate skin-resident memory T cell homeostasis and lymphoma. Nat Med. 2015;21:1272-9 pubmed 出版商
  106. Mitson Salazar A, Yin Y, Wansley D, Young M, Bolan H, Arceo S, et al. Hematopoietic prostaglandin D synthase defines a proeosinophilic pathogenic effector human T(H)2 cell subpopulation with enhanced function. J Allergy Clin Immunol. 2016;137:907-18.e9 pubmed 出版商
  107. Iriondo O, Rábano M, Domenici G, Carlevaris O, López Ruiz J, Zabalza I, et al. Distinct breast cancer stem/progenitor cell populations require either HIF1α or loss of PHD3 to expand under hypoxic conditions. Oncotarget. 2015;6:31721-39 pubmed 出版商
  108. Nie S, McDermott S, Deol Y, Tan Z, Wicha M, Lubman D. A quantitative proteomics analysis of MCF7 breast cancer stem and progenitor cell populations. Proteomics. 2015;15:3772-83 pubmed 出版商
  109. Zoch A, Mayerl S, Schulz A, Greither T, Frappart L, Rübsam J, et al. Merlin Isoforms 1 and 2 Both Act as Tumour Suppressors and Are Required for Optimal Sperm Maturation. PLoS ONE. 2015;10:e0129151 pubmed 出版商
  110. Velarde M, Demaria M, Melov S, Campisi J. Pleiotropic age-dependent effects of mitochondrial dysfunction on epidermal stem cells. Proc Natl Acad Sci U S A. 2015;112:10407-12 pubmed 出版商
  111. Hossain M, Qadri S, Xu N, Su Y, Cayabyab F, Heit B, et al. Endothelial LSP1 Modulates Extravascular Neutrophil Chemotaxis by Regulating Nonhematopoietic Vascular PECAM-1 Expression. J Immunol. 2015;195:2408-16 pubmed 出版商
  112. Zhao J, Li H, Zhou R, Ma G, Dekker J, Tucker H, et al. Foxp1 Regulates the Proliferation of Hair Follicle Stem Cells in Response to Oxidative Stress during Hair Cycling. PLoS ONE. 2015;10:e0131674 pubmed 出版商
  113. Hein S, Haricharan S, Johnston A, Toneff M, Reddy J, Dong J, et al. Luminal epithelial cells within the mammary gland can produce basal cells upon oncogenic stress. Oncogene. 2016;35:1461-7 pubmed 出版商
  114. Joshi P, Waterhouse P, Kannan N, Narala S, Fang H, Di Grappa M, et al. RANK Signaling Amplifies WNT-Responsive Mammary Progenitors through R-SPONDIN1. Stem Cell Reports. 2015;5:31-44 pubmed 出版商
  115. Virts E, Jankowska A, MacKay C, Glaas M, Wiek C, Kelich S, et al. AluY-mediated germline deletion, duplication and somatic stem cell reversion in UBE2T defines a new subtype of Fanconi anemia. Hum Mol Genet. 2015;24:5093-108 pubmed 出版商
  116. Ferder I, Wang N. Hypermaintenance and hypofunction of aged spermatogonia: insight from age-related increase of Plzf expression. Oncotarget. 2015;6:15891-901 pubmed
  117. Ketema M, Secades P, Kreft M, Nahidiazar L, Janssen H, Jalink K, et al. The rod domain is not essential for the function of plectin in maintaining tissue integrity. Mol Biol Cell. 2015;26:2402-17 pubmed 出版商
  118. Iglesias Bartolomé R, Torres D, Marone R, Feng X, Martin D, Simaan M, et al. Inactivation of a Gα(s)-PKA tumour suppressor pathway in skin stem cells initiates basal-cell carcinogenesis. Nat Cell Biol. 2015;17:793-803 pubmed 出版商
  119. Suarez Vega A, Gutiérrez Gil B, Benavides J, Perez V, Tosser Klopp G, Klopp C, et al. Combining GWAS and RNA-Seq Approaches for Detection of the Causal Mutation for Hereditary Junctional Epidermolysis Bullosa in Sheep. PLoS ONE. 2015;10:e0126416 pubmed 出版商
  120. Bhagirath D, Zhao X, West W, Qiu F, Band H, Band V. Cell type of origin as well as genetic alterations contribute to breast cancer phenotypes. Oncotarget. 2015;6:9018-30 pubmed
  121. Aghababaei M, Hogg K, Perdu S, Robinson W, Beristain A. ADAM12-directed ectodomain shedding of E-cadherin potentiates trophoblast fusion. Cell Death Differ. 2015;22:1970-84 pubmed 出版商
  122. Davis F, Janoshazi A, Janardhan K, Steinckwich N, D Agostin D, Petranka J, et al. Essential role of Orai1 store-operated calcium channels in lactation. Proc Natl Acad Sci U S A. 2015;112:5827-32 pubmed 出版商
  123. Hines W, Yaswen P, Bissell M. Modelling breast cancer requires identification and correction of a critical cell lineage-dependent transduction bias. Nat Commun. 2015;6:6927 pubmed 出版商
  124. Westcott J, Prechtl A, Maine E, Dang T, Esparza M, Sun H, et al. An epigenetically distinct breast cancer cell subpopulation promotes collective invasion. J Clin Invest. 2015;125:1927-43 pubmed 出版商
  125. Yazlovitskaya E, Tseng H, Viquez O, Tu T, Mernaugh G, McKee K, et al. Integrin α3β1 regulates kidney collecting duct development via TRAF6-dependent K63-linked polyubiquitination of Akt. Mol Biol Cell. 2015;26:1857-74 pubmed 出版商
  126. Seo H, Woo J, Shin Y, Ko S. Identification of biomarkers regulated by rexinoids (LGD1069, LG100268 and Ro25-7386) in human breast cells using Affymetrix microarray. Mol Med Rep. 2015;12:800-18 pubmed 出版商
  127. Kato H, Izumi K, Uenoyama A, Shiomi A, Kuo S, Feinberg S. Hypoxia induces an undifferentiated phenotype of oral keratinocytes in vitro. Cells Tissues Organs. 2014;199:393-404 pubmed 出版商
  128. Laurenti E, Frelin C, Xie S, Ferrari R, Dunant C, Zandi S, et al. CDK6 levels regulate quiescence exit in human hematopoietic stem cells. Cell Stem Cell. 2015;16:302-13 pubmed 出版商
  129. Bele A, Mirza S, Zhang Y, Ahmad Mir R, Lin S, Kim J, et al. The cell cycle regulator ecdysoneless cooperates with H-Ras to promote oncogenic transformation of human mammary epithelial cells. Cell Cycle. 2015;14:990-1000 pubmed 出版商
  130. WANG Y, McAllister F, Bailey J, Scott S, Hendley A, Leach S, et al. Dicer is required for maintenance of adult pancreatic acinar cell identity and plays a role in Kras-driven pancreatic neoplasia. PLoS ONE. 2014;9:e113127 pubmed 出版商
  131. Lim A, Shin K, Zhao C, Kawano S, Beachy P. Spatially restricted Hedgehog signalling regulates HGF-induced branching of the adult prostate. Nat Cell Biol. 2014;16:1135-45 pubmed 出版商
  132. Zhang Y, Xia J, Li Q, Yao Y, Eades G, Gernapudi R, et al. NRF2/long noncoding RNA ROR signaling regulates mammary stem cell expansion and protects against estrogen genotoxicity. J Biol Chem. 2014;289:31310-8 pubmed 出版商
  133. Yin C, Zhang T, Qiao L, Du J, Li S, Zhao H, et al. TLR7-expressing cells comprise an interfollicular epidermal stem cell population in murine epidermis. Sci Rep. 2014;4:5831 pubmed 出版商
  134. Juengel E, Makarevic J, Reiter M, Mani J, Tsaur I, Bartsch G, et al. Resistance to the mTOR inhibitor temsirolimus alters adhesion and migration behavior of renal cell carcinoma cells through an integrin ?5- and integrin ?3-dependent mechanism. Neoplasia. 2014;16:291-300 pubmed 出版商
  135. Hashim Y, Worthington J, Allsopp P, Ternan N, Brown E, McCann M, et al. Virgin olive oil phenolics extract inhibit invasion of HT115 human colon cancer cells in vitro and in vivo. Food Funct. 2014;5:1513-9 pubmed 出版商
  136. Kandasamy K, Narayanan K, Ni M, Du C, Wan A, Zink D. Polysulfone membranes coated with polymerized 3,4-dihydroxy-l-phenylalanine are a versatile and cost-effective synthetic substrate for defined long-term cultures of human pluripotent stem cells. Biomacromolecules. 2014;15:2067-78 pubmed 出版商
  137. Termini C, Cotter M, Marjon K, Buranda T, Lidke K, Gillette J. The membrane scaffold CD82 regulates cell adhesion by altering α4 integrin stability and molecular density. Mol Biol Cell. 2014;25:1560-73 pubmed 出版商
  138. Zakaria N, Possemiers T, Dhubhghaill S, Leysen I, Rozema J, Koppen C, et al. Results of a phase I/II clinical trial: standardized, non-xenogenic, cultivated limbal stem cell transplantation. J Transl Med. 2014;12:58 pubmed 出版商
  139. De Rosa L, Carulli S, Cocchiarella F, Quaglino D, Enzo E, Franchini E, et al. Long-term stability and safety of transgenic cultured epidermal stem cells in gene therapy of junctional epidermolysis bullosa. Stem Cell Reports. 2014;2:1-8 pubmed 出版商
  140. Aksoy P, Abban C, Kiyashka E, Qiang W, Meneses P. HPV16 infection of HaCaTs is dependent on ?4 integrin, and ?6 integrin processing. Virology. 2014;449:45-52 pubmed 出版商
  141. Basu S, Rajakaruna S, De Arcangelis A, Zhang L, Georges Labouesse E, Menko A. ?6 integrin transactivates insulin-like growth factor receptor-1 (IGF-1R) to regulate caspase-3-mediated lens epithelial cell differentiation initiation. J Biol Chem. 2014;289:3842-55 pubmed 出版商
  142. Osada M, Singh V, Wu K, Sant Angelo D, Pezzano M. Label retention identifies a multipotent mesenchymal stem cell-like population in the postnatal thymus. PLoS ONE. 2013;8:e83024 pubmed 出版商
  143. Francisco A, Hwang P, Jeong C, Jing L, Chen J, Setton L. Photocrosslinkable laminin-functionalized polyethylene glycol hydrogel for intervertebral disc regeneration. Acta Biomater. 2014;10:1102-11 pubmed 出版商
  144. Kidwai F, Cao T, Lu K. Differentiation of epidermal keratinocytes from human embryonic stem cells. Methods Mol Biol. 2014;1195:13-22 pubmed 出版商
  145. Tang X, Richardson W, Fitch R, Brown C, Isaacs R, Chen J. A new non-enzymatic method for isolating human intervertebral disc cells preserves the phenotype of nucleus pulposus cells. Cytotechnology. 2014;66:979-86 pubmed 出版商
  146. Cagnet S, Faraldo M, Kreft M, Sonnenberg A, Raymond K, Glukhova M. Signaling events mediated by ?3?1 integrin are essential for mammary tumorigenesis. Oncogene. 2014;33:4286-95 pubmed 出版商
  147. Kikkawa Y, Ogawa T, Sudo R, Yamada Y, Katagiri F, Hozumi K, et al. The lutheran/basal cell adhesion molecule promotes tumor cell migration by modulating integrin-mediated cell attachment to laminin-511 protein. J Biol Chem. 2013;288:30990-1001 pubmed 出版商
  148. Yucel G, Altindag B, Gomez Ospina N, Rana A, Panagiotakos G, Lara M, et al. State-dependent signaling by Cav1.2 regulates hair follicle stem cell function. Genes Dev. 2013;27:1217-22 pubmed 出版商
  149. Shiura H, Ikeda R, Lee J, Sato T, Ogonuki N, Hirose M, et al. Generation of a novel germline stem cell line expressing a germline-specific reporter in the mouse. Genesis. 2013;51:498-505 pubmed 出版商
  150. Szabo A, Fong S, Yue L, Zhang K, Strachan L, Scalapino K, et al. The CD44+ ALDH+ population of human keratinocytes is enriched for epidermal stem cells with long-term repopulating ability. Stem Cells. 2013;31:786-99 pubmed 出版商
  151. Steinberg F, Heesom K, Bass M, Cullen P. SNX17 protects integrins from degradation by sorting between lysosomal and recycling pathways. J Cell Biol. 2012;197:219-30 pubmed 出版商
  152. Davies D. Temporal and spatial regulation of alpha6 integrin expression during the development of the cochlear-vestibular ganglion. J Comp Neurol. 2007;502:673-82 pubmed