RNA純化
  • ET121-01.JPG
ET121-01.JPG

TransZol  Plant


產品介紹

TransZol Plant采用改良的CTAB法裂解細胞,避免多糖多酚和RNA結合,從而有效分離RNA。適用于從80-100 mg富含多糖、多酚的植物材料中提取總RNA,例如香菇、香蕉果實、芒果果實、馬鈴薯塊莖、胡蘿卜及虎皮蘭葉片等材料。另外,也適用于從某些動物組織,如脂肪、結締組織種提取總RNA


References

Li X , Lei M , Yan Z , et al. The REL3-mediated TAS3 ta-siRNA pathway integrates auxin and ethylene signaling to regulate nodulation in Lotus japonicus[J]. New Phytologist, 2014, 201(2):531-544.
Wang C , Yu H , Zhang Z , et al. Phytosulfokine Is Involved in Positive Regulation of Lotus japonicus Nodulation.[J]. Molecular plant-microbe interactions : MPMI, 2015, 28(8):847.
Pi Z , Zhao M L , Peng X J , et al. Phosphoproteomic Analysis of Paper Mulberry Reveals Phosphorylation Functions in Chilling Tolerance[J]. Journal of Proteome Research,  2017, 16(5):1944-1961.
Yucheng Z , Tingting L , Jun L , et al. Integration of a Decrescent Transcriptome and Metabolomics Dataset of Peucedanum praeruptorum to Investigate the CYP450 and MDR Genes Involved in Coumarins Biosynthesis and Transport[J]. Frontiers in Plant Science, 2015,6:996.
Liu H , Yang Q , Fan C , et al. Transcriptomic basis of functional difference and coordination between seeds and the silique wall of Brassica napus during the seed-filling stage[J]. Plant Science, 2015, 233:186-199.

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