WEICHEN ZHAO¹, PINGFAN ZHOU¹, BENZHEN LOU¹, YAQI JIANG¹, YUANBO LI¹, MINGSHU LI¹, NOMAN SHAKOOR¹, YUKUI RUI^1,2,3,4,*

BIOCELL, Vol.47, No.3, pp. 493-502, 2023, DOI:10.32604/biocell.2023.025740

Abstract As the climate worsens and the demand for food grows, so does the interest in nanoagriculture. The interaction between plants and nanomaterials (NMs) has been extensively and intensively examined. However, stopping at the outcome of a phenomenon is often insufficient. Therefore, we introduce three important processes of nanoparticle-plant interactions: translocation, transformation, and plant metabolism. During the migration of nanoparticles, size and surface electrical properties are the main determining factors. Additionally, the interaction of nanoparticles with cell membranes is another key aspect of research. The transformation of nanoparticles in plants is mainly due to redox substances. The way that nanoparticles affect… More >

Víctor A. Sánchez-Camargo^1,2, Samantha Romero-Rodríguez¹, Jorge M. Vázquez-Ramos^1,*

Phyton-International Journal of Experimental Botany, Vol.90, No.2, pp. 307-330, 2021, DOI:10.32604/phyton.2021.014967

Abstract The E2F/DP pathway is a widely conserved regulatory mechanism in pluricellular organisms. The family of E2F and DP transcription factors was originally described having a role in the transition from the G1 to the S phase of the cell cycle. However, the discovery of hundreds of possible gene targets and their involvement in many other biochemical processes, soon showed that they participated in cell development and differentiation, chromatin remodeling, DNA repair and others. The E2F/DP transcription factors can act as either activators or repressors of transcription depending on their association to other regulatory proteins, particularly the retinoblastoma protein, or even… More >

A. DEL CAMPO*, M. BRACHO, L. MARCANO, J. GUÍÑEZ, C. DE LA TORRE**

BIOCELL, Vol.29, No.2, pp. 169-176, 2005, DOI:10.32604/biocell.2005.29.169

Abstract This work evaluated the qualitative and quantitative cellular changes induced by treatment with 5-aminouracil (5-AU) and a combination of 5-AU and caffeine in plant cells in relation to DNA damage, repaired damage, and residual damage. As biological material, Allium cepa L. root tips were used, grown in filtered water, in darkness, with aeration at constant temperature of 25 °C ± 0.5. Cell populations were synchronized using 5 mM caffeine in order to study the effects of 5-AU and caffeine/5-AU combined treatment on the DNA content and their incidence in the entrance to mitosis. The results showed a delay in the… More >