OBESITY AND ITS RELATIONSHIP WITH CANCER: PART I OBESITY

Cancer is a lethal disease and a strong barrier to a better life expectancy. It is the first or second leading cause of death before the age of 70 years in 112 of 183 countries. Its incidence and mortality continue to grow rapidly all over the world. This manuscript is divided into four parts. Part I discusses obesity while Part II discusses the relationship between obesity and cancer. Part III and Part IV review the association of obesity on fifteen common cancers.

Differential Modulatory Effect of Epigallocatechin-3-Gallate in Suppression of Tumor Proliferation

Despite the remarkable progress in selecting the chemotherapeutic drugs, most are expensive and associated with many adverse effects targeting both cancer and normal cells. The using of polyphenols as natural materials for chemoprevention is considered a promising approach in reducing the tumor proliferation.This study aims to investigate whether a difference between the use of green tea and its component Epigallocatechin-gallate (EGCG) in treatment and protection against tumor. Sixty female Swiss albino mice weighted 20–22 g divided into 6 groups (n=10).The tumor suppression of green tea and EGCG was mirrored by evaluating their antioxidant and the anti-inflammatory effect on tumor markers and DNA integrity.Our results showed that the administration of EGCG showed a significant elevation of both antioxidants and anti-inflammatory markers in serum of EAC-bearing animals and revealed its high curative power to protect than treat tumor growth. Moreover, genomic DNA fragmentations assay present EGCG as a modulatory agent in keeping genome integrity.The administration of green tea and its major constituent EGCG showed a significant a potent protective role in suppressing tumor proliferation than its use in treatment due to its antioxidant and anti-inflammatory effect and maintaining the integrity of underlying genomic DNA that make it a strong barrier which arrest the process of oncogensis.

In vivo capture of bacterial cells by remote guiding

Recently, it has been shown that several bacterial strains can be very efficient in cancer treatment since they possess many important properties such as self-targeting, ease of detection, sensing and toxicity against tumors. However, there are only a few relevant candidates for such an approach, as targeting and detection one of the biggest challenges as well as there are many limitations in the use of genetic approaches. Here, it is proposed the solution that enables surface modification of alive bacterial cells without interfering with their genetic material and potentially reduces their toxic side effect. By the electrostatic interaction fluorescently labeled polyelectrolytes (PEs) and magnetite nanoparticles (NPs) were deposited on the bacterial cell surface to control the cell growth, distribution and detection of bacteria. According to the results obtained in vivo, by the magnet entrapment of the modified bacteria the local concentration of the cells was increased more than 5 times, keeping the high concentrations even when the magnet is removed. Since the PEs create a strong barrier, in vitro it was shown that the division time of the cells can be regulated for better immune presentation.

MAXIMIZING LIFETIME OF HETEROGENEOUS WIRELESS TURNABLE CAMERA SENSOR NETWORKS ENSURING STRONG BARRIER COVERAGE

Barrier coverage in wireless camera sensor networks (WCSNs) has drawn the attention of research community since it promises an extremely large potential in applications involve movement detection and surveillance. As the battery resources are limited, improving the efficiency of energy is one of the key drivers for prolonging the lifetime of barrier coverage. However, most prior studies on this problem only worked on the networks with homogeneous sensors as well as omni-directional sensing coverage that have not been taken into account in WCSNs research. This paper thus investigates the problem of maximizing the network lifetime to ensure strong barrier coverage for heterogeneous case (MLBC-HWCSN). We formulate the problem, and then propose a Modify Maximum Flow Algorithm (MMFA) consisting of three stages: constructing the flow-network, finding the maximum flow and refining the solution to solve this problem. Experimental results on extensive instances show that the proposed methodology is suitable for the studied problem and more efficient than existing algorithms.

Multilocus phylogeny and historical biogeography of Hypostomus shed light on the processes of fish diversification in La Plata Basin

Distribution history of the widespread Neotropical genus Hypostomus was studied to shed light on the processes that shaped species diversity. We inferred a calibrated phylogeny, ancestral habitat preference, ancestral areas distribution, and the history of dispersal and vicariance events of this genus. The phylogenetic and distribution analyses indicate that Hypostomus species inhabiting La Plata Basin do not form a monophyletic clade, suggesting that several unrelated ancestral species colonized this basin in the Miocene. Dispersal to other rivers of La Plata Basin started about 8 Mya, followed by habitat shifts and an increased rate of cladogenesis. Amazonian Hypostomus species colonized La Plata Basin several times in the Middle Miocene, probably via the Upper Paraná and the Paraguay rivers that acted as dispersal corridors. During the Miocene, La Plata Basin experienced marine incursions, and geomorphological and climatic changes that reconfigured its drainage pattern, driving dispersal and diversification of Hypostomus. The Miocene marine incursion was a strong barrier and its retraction triggered Hypostomus dispersal, increased speciation rate and ecological diversification. The timing of hydrogeological changes in La Plata Basin coincides well with Hypostomus cladogenetic events, indicating that the history of this basin has acted on the diversification of its biota.

The CRISPR Era, the National Academies Report, and the Median Trait Barrier

This chapter begins with the discovery of human gene editing, and how the immediate ethical response used the existing weakened barriers. The chapter then turns to a detailed analysis of how an influential report by the National Academies of Science, Engineering, and Medicine advocated taking down the somatic/germline barrier. The replacement barrier proposed by the National Academies is deemed unstable, and in its place this chapter describes a strong barrier located at the median trait in a population. That is, people could modify their children to take them up to the median value on any trait but not above the median. This would satisfy the dominant contemporary value of justice or fairness, which would require the genetically disadvantaged to overcome their disadvantage, but not allow anyone to use genetics to gain advantage over others.

On the Anti-Corrosion Property of Dry-Gel-Conversion-Grown MFI Zeolite Coating on Aluminum Alloy

MFI zeolite film coated on AA6061 alloy was prepared from fumed silica modified with/without n-octyldecyltrimethoxysilane (ODS) by means of dry gel conversion (DGC) method. The DGC-grown MFI zeolite film could form a strong barrier to protect AA6061 surface against the corrosion from NaCl solution. By using fumed silica as a starting material, the hydrophilicity and anti-corrosion capability of the MFI zeolite film declined with increasing humidity in the DGC synthesis. By silanization with ODS, the surface hydrophobicity of the MFI zeolite film increased, leading to substantial enhancement in anti-corrosion capability. On the other hand, MFI film grown from ODS-modified fumed silica exhibited low hydrophilicity and a much improved anti-corrosion protection property by four orders of magnitude, even stronger than the ODS post-treated MFI film. The strong anti-corrosion capability is attributed to the “thick layer” surface hydrophobicity of zeolite crystal.

Multilocus phylogeny and historical biogeography of Hypostomus shed light on the processes of fish diversification in La Plata Basin

Distribution history of the widespread Neotropical genus Hypostomus to shed light on the processes that shaped species diversity. We inferred a calibrated phylogeny; ancestral habitat preference, ancestral areas distribution, and the history of dispersal and vicariance events of this genus. The phylogenetic and distributional analyses indicate that Hypostomus species inhabiting La Plata Basin do not form a monophyletic clade, suggesting that several unrelated ancestral species colonized this basin in the Miocene (∼17 Mya). Dispersal to other rivers of La Plata Basin started about 8 Mya, followed by habitat shifts and an increased rate of cladogenesis. Amazonian Hypostomus species colonized La Plata Basin several times in the Middle Miocene, probably via the Upper Paraná and the Paraguay rivers that acted as biogeographic corridors. During the Miocene, La Plata Basin experienced marine incursions; and geomorphological and climatic changes that reconfigured its drainage pattern, driving the dispersal and diversification of Hypostomus. The Miocene marine incursion was a strong barrier and its retraction triggered Hypostomus dispersal, increased speciation rate and ecological diversification. The timing of hydrogeological changes in La Plata Basin coincides well with Hypostomus cladogenetic events, indicating that the history of this basin has acted on the diversification of its biota.