"Manifestly unfit" : an analysis of eugenics in relation to race and disability

David W. Levy Prize finalist, Fall 2017Eugenics was one of the darkest movements of the Progressive era. The eugenics movement argued that preserving "superior" humans will create a more productive and healthy class of people. It dated back to Francis Galton's idea that encouraging procreation among the supposedly superior would create a fitter group of people and preserve the white race, who eugenicists considered innately superior. American eugenicists persuaded people that certain characteristics such as race and disability were degenerate. In reality, they simply sought refuge in the idea of improving white Americans to justify maintaining power over people of color and the disabled. In fact, this movement led to restrictions on interracial marriage and lifelong sterilization of innocent people. Eugenics perpetuated discrimination under the veil that eugenics would create a better society, however, the underlying goal was to exercise social control and power over African Americans and disabled people.undergraduat

Complete genome sequences of three novel Pseudomonas fluorescens SBW25 bacteriophages, Noxifer, Phabio, and Skulduggery

Three novel bacteriophages, two of which are jumbophages, were isolated from compost in Auckland, New Zealand. Noxifer, Phabio, and Skulduggery are double-stranded DNA (dsDNA) phages with genome sizes of 278,136 bp (Noxifer), 309,157 bp (Phabio), and 62,978 bp (Skulduggery)

Conservation status and demographics of the Galapagos land iguana (Conolophus subcristatus) in the Galapagos Islands, Ecuador : a thesis presented in partial fulfilment of the requirements for the degree of Masters of Natural Science in Conservation Biology, Massey University, New Zealand

In conservation biology, understanding the basic demography of populations across their range, provides opportunities to identify and prioritise management actions to improve the conservation of both, populations and of the species as a whole. The Galapagos land iguana or land iguana (Conolophus subcristatus) (endemic to the Galapagos Islands), is an ideal model to explore these ideas and to generate information that can assist its conservation. Currently, the species is classified as IUCN: Vulnerable. Land iguana populations are threatened by introduced species and habitat loss but the intensity of these threats varies between populations. The population sizes across the species range are partially known and suspected to relate to the presence/absence of introduced predators. Although demographic trends are virtually unknown, it is suspected that populations in disturbed areas have a lower recruitment of juveniles and limited population growth. Overall, these gaps in knowledge represent a challenge to a formal evaluation of the species’ conservation status. Historically, translocation of land iguanas to predator-free or predator-managed sites in the Galapagos Islands has played an important role for its conservation. Since the 1970s there have been calls for translocating land iguanas to Santiago Island, considered to harbour one of the largest land iguana populations until the early 1900s. Although the mechanism for the extinction of the Santiago Island population is not understood, it is most likely linked to habitat changes driven by humans and the effects of introduced predators, which are common denominators in significant iguana population declines on other islands around the world. Since the early 2000s, introduced predators have been eradicated on Santiago Island, and the possibility of reintroducing land iguanas there has resurfaced with greater intensity. While the habitat on Santiago Island is considered suitable for land iguanas, and the expertise to handle and transfer these organisms exists there are missing gaps in knowledge in particular: is the size of historically translocated populations comparable to undisturbed populations? What are the current population sizes of land iguana populations? and what are the effects of introduced predators on land iguana populations? This thesis addresses these gaps in land iguana demography by providing an update of the current conservation status, estimates of population size and an analysis of the effects of feral cats using historical data. I examined the effects of feral cats on two populations by comparing historical demographic data from cat-absent and cat-present populations. I found cat-present populations exhibited significantly different population structure and morphology to cat-absent populations, including significantly lower juvenile percentage indicating reduced juvenile recruitment as a result of juvenile depredation . Further, I studied a translocated population of land iguanas (North Seymour) and the most undisturbed land iguana population in one of the most active volcanoes worldwide; Fernandina Island. I estimate and compare population size to assist the planning of a reintroduction of the species to Santiago Island. Finally, I review the IUCN status of the species and conclude that the Vulnerable status is justified, primarily due to its limited geographic range and projected population decline. Four weeks before the completion of this thesis, the Directorate of the Galapagos National Park, Island Conservation and Massey University completed a transfer of over 2000 land iguanas to Santiago Island based on the information provided in this document. Although I could not incorporate the posttranslocation monitoring of land iguanas as part of my thesis, I discuss future research needs that will contribute to the restoration of Santiago Island, and the conservation of land iguanas across their range

Drug-Induced Hypersensitivity Reaction and Re-Introduction of Anti-Tubercular Drugs (ATT): A Case Report and Review of Literature

Tuberculosis (TB) is a communicable disease caused by the bacillus Mycobacterium tuberculosis and is the leading cause of death by a single infectious agent overall. According to the WHO Global TB Report, India contributes to 26% of the global burden of TB. Currently, a four-drug regimen comprising Rifampicin, Isoniazid, Pyrazinamide, and Ethambutol is approved for the treatment of drug-sensitive TB. The management of cutaneous adverse drug reactions to anti-tubercular drugs is akin to a double-edged sword, with discontinuation of ATT increasing the risk of developing disseminated and drug-resistant tuberculosis, and continuation leading to persistence or exacerbation of the adverse drug reaction (ADR). The risk of developing an ADR to anti-tubercular therapy (ATT) varies from 8 to 85% in various studies [10]. The prevalence of rashes associated with ATT shows that the maculopapular rash (42.5%) is the most frequently observed type, followed by urticarial, lichenoid, DRESS, AGEP, and exfoliative dermatitis (17). The drugs associated with Cutaneous ADRs from the lowest to the highest risk are Isoniazid, Rifampicin, Pyrazinamide, Ethionamide, Cycloserine, Ethambutol, Para-aminosalicylic acid (PAS), and Streptomycin (25). We present a case and approach to the re-introduction of first-line anti-tubercular drugs after hypersensitivity with fixed-dose combinations. Keywords: Tuberculosis, Mycobacterium tuberculosis, adverse drug reaction, anti-tubercular therap

Continuing Field Efficacy of Norbormide against both Rattus rattus (Ship Rats) and Rattus norvegicus (Norway Rats)

Norbormide is a uniquely selective rat toxicant for Rattus species, with rats being 100- to 150-fold more sensitive to norbormide toxicity than most other mammals and birds. Previously we reported that on completion of a 10-year program of targeted fundamental and applied synthetic chemistry and toxicology, taste aversion associated with this compound had been overcome. In 2020-2022, trials have been successfully completed on poultry farms with Norway rats and larger scale field trials were undertaken targeting ship rats using 1% norbormide paste baits. Firstly, the efficacy of norbormide-containing paste baits targeting rat infestations on poultry farms was proven with a 100% reduction of Norway rat populations on three different farms. Secondly, 100% reduction in ship rat abundance was achieved at two large field test sites; and no reduction was achieved at the untreated control site. These larger field trials are described in depth in this publication. Plans are progressing to complete product development and registration

Epigenetic silencing of genes enhanced by collective role of reactive oxygen species and MAPK signaling downstream ERK/Snail axis: Ectopic application of hydrogen peroxide repress CDH1 gene by enhanced DNA methyltransferase activity in human breast cancer

Loss of E-cadherin and epithelial to mesenchymal transition (EMT) are key steps in cancer progression. Reactive oxygen species (ROS) play significant roles in cellular physiology and homeostasis. Roles of E-cadherin (CDH1), EMT and ROS are intriguingly illustrated in many cancers without focusing their collective concert during cancer progression. We report that hydrogen peroxide (H2O2) treatment modulate CDH1 gene expression by epigenetic modification(s). Sublethal dosage of H2O2 treatment decrease E-cadherin, increase DNMT1, HDAC1, Snail, Slug and enrich H3K9me3 and H3K27me3 in the CDH1 promoter. The effect of H2O2 was attenuated by ROS scavengers; NAC, lupeol and beta-sitosterol. DNMT inhibitor, AZA prevented the H2O2 induced promoter-CpG-island methylation of CDH1. Treatment of cells with U0126 (inhibitor of ERK) reduced the expression of DNMT1, Snail and Slug, increased CDHL This implicates that CDH1 is synergistically repressed by histone methylation, DNA methylation and histone deacetylation mediated chromatin remodelling and activation of Snail and Slug through ERK pathway. Increased ROS leads to activation of epigenetic machineries and EMT activators Snail/Slug which in their course of action inactivates CDH1 gene and lack of E-cadherin protein promotes EMT in breast cancer cells. ROS and ERK signaling facilitate epigenetic silencing and support the fact that subtle increase of ROS above basal level act as key cell signaling molecules. Free radical scavengers, lupeol and beta-sitosterol may be tested for therapeutic intervention of breast cancer. This work broadens the amplitude of epigenome and open avenues for investigations on conjoint effects of canonical and intrinsic metabolite signaling and epigenetic modulations in cancer