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Alvarado-Ruiz, Liliana,Martinez-Silva, Maria Guadalupe,Torres-Reyes, Luis Alberto,Pina-Sanchez, Patricia,Ortiz-Lazareno, Pablo,Bravo-Cuellar, Alejandro,Aguilar-Lemarroy, Adriana,Jave-Suarez, Luis Feli Asian Pacific Journal of Cancer Prevention 2016 Asian Pacific journal of cancer prevention Vol.17 No.3
HOX transcription factors are evolutionarily conserved in many different species and are involved in important cellular processes such as morphogenesis, differentiation, and proliferation. They have also recently been implicated in carcinogenesis, but their precise role in cancer, especially in cervical cancer (CC), remains unclear. In this work, using microarray assays followed by the quantitative polymerase chain reaction (qPCR), we found that the expression of 25 HOX genes was downregulated in CC derived cell lines compared with non-tumorigenic keratinocytes. In particular, the expression of HOXA9 was observed as down-modulated in CC-derived cell lines. The expression of HOXA9 has not been previously reported in CC, or in normal keratinocytes of the cervix. We found that normal CC from women without cervical lesions express HOXA9; in contrast, CC cell lines and samples of biopsies from women with CC showed significantly diminished HOXA9 expression. Furthermore, we found that methylation at the first exon of HOXA9 could play an important role in modulating the expression of this gene. Exogenous restoration of HOXA9 expression in CC cell lines decreased cell proliferation and migration, and induced an epithelial-like phenotype. Interestingly, the silencing of human papilloma virus (HPV) E6 and E7 oncogenes induced expression of HOXA9. In conclusion, controlling HOXA9 expression appears to be a necessary step during CC development. Further studies are needed to delineate the role of HOXA9 during malignant progression and to afford more insights into the relationship between downmodulation of HOXA9 and viral HPV oncoprotein expression during cercical cancer development.
Dynamic punching shear tests of flat slab-column joints with 5D steel fibers
Yezid A. Alvarado,Benjamín Torres,Manuel Buitrago,Daniel M. Ruiz,Sergio Y. Torres,Ramón A. Álvarez 국제구조공학회 2022 Structural Engineering and Mechanics, An Int'l Jou Vol.81 No.3
This study aimed to analyze the dynamic punching shear performance of slab-column joints under cyclic loads with the use of double-hooked end (5D) steel fibers. Structural systems such as slab-column joints are widely found in infrastructures. The susceptibility to collapse of such structures when submitted to seismic loads is highly dependent on the structural performance of the slab-column connections. For this reason, the punching capacity of reinforced concrete (RC) structures has been the subject of a great number of studies. Steel fibers are used to achieve a certain degree of ductility under seismic loads. In this context, 5D steel hooked fibers provide high levels of fiber anchoring, tensile strength and ductility. However, only limited research has been carried out on the performance under cyclic loads of concrete structural members containing steel fibers. This study covers this gap with experimental testing of five different full-scale subassemblies of RC slab-column joints: one without punching reinforcement, one with conventional punching reinforcement and three with 5D steel fibers. The subassemblies were tested under cyclic loading, which consisted of applying increasing lateral displacement cycles, such as in seismic situations, with a constant axial load on the column. This set of cycles was repeated for increasing axial loads on the column until failure. The results showed that 5D steel fiber subassemblies: i) had a greater capacity to dissipate energy, ii) improved punching shear strength and stiffness degradation under cyclic loads; and iii) increased cyclic loading capacity.
Domingo Cruz-Labana José,Antonio Tarango-Arámbula Luis,Luis Alcántara-Carbajal José,Delgado-Alvarado Adriana,Magdalena Crosby-Galván María,Manuel Ruiz-Vera Víctor 한국응용곤충학회 2024 Journal of Asia-Pacific Entomology Vol.27 No.1
Ants are among the organisms that are considered habitat engineers due to their ability to induce changes in the soil. An economically significant ant species is Liometopum apiculatum MAYR, 1870, as its pupae are utilized for human consumption. This ant has been extensively studied using various biological and ecological approaches in diverse habitats across North America. However, there is limited research documenting the properties of the soil in which they nest. The objective of this research was to analyze the physical and chemical properties of soil from Liometopum apiculatum nests and random sites, and to explain how ants can modify the soil in a semi-arid area of north-central Mexico. A sample size of 45 nests distributed in scrub vegetation was determined. Soil samples (2.5 kg) were collected from nests and random sites (20 m in a random direction) at a depth of 20 cm, and aggregates of 3 to 4 cm in length were included during the excavations. The physical variables evaluated were moisture, texture, bulk density and mechanical penetration resistance (MPR); while the chemical ones were pH, electrical conductivity, organic matter, nitrogen, phosphorus and potassium. The variables moisture (p = 0.031), bulk density (p < 0.01), MPR (p = 0.0289); pH (p < 0.001), electrical conductivity (p < 0.01) and organic matter (p < 0.01) had statistical differences between soil from nests and random sites. This research adds to the existing body of knowledge on Liometopum apiculatum by presenting information on the physical and chemical properties of the soil in which they establish their nests.