Genetic Interaction between Mfrp and Adipor1 Mutations Affect Retinal Disease Phenotypes

Adipor1tm1Dgen and Mfrprd6 mutant mice share similar eye disease characteristics. Previously, studies established a functional relationship of ADIPOR1 and MFRP proteins in maintaining retinal lipidome homeostasis and visual function. However, the independent and/or interactive contribution of both genes to similar disease phenotypes, including fundus spots, decreased axial length, and photoreceptor degeneration has yet to be examined. We performed a gene-interaction study where homozygous Adipor1tm1Dgen and Mfrprd6 mice were bred together and the resulting doubly heterozygous F1 offspring were intercrossed to produce 210 F2 progeny. Four-month-old mice from all nine genotypic combinations obtained in the F2 generation were assessed for white spots by fundus photo documentation, for axial length by caliper measurements, and for photoreceptor degeneration by histology. Two-way factorial ANOVA was performed to study individual as well as gene interaction effects on each phenotype. Here, we report the first observation of reduced axial length in Adipor1tmlDgen homozygotes. We show that while Adipor1 and Mfrp interact to affect spotting and degeneration, they act independently to control axial length, highlighting the complex functional association between these two genes. Further examination of the molecular basis of this interaction may help in uncovering mechanisms by which these genes perturb ocular homeostasis

Strategic flood management: ten ‘golden rules’ to guide a sound approach

Over recent decades, remarkable progress in cultivating the concepts of flood risk management has taken place across countries as diverse as India, China, Australia, the UK and the USA. This change highlights a risk management paradigm as potentially more complex than a more traditional standard-based approach as it involves ‘whole systems’ and ‘whole-life’ thinking; yet this is also its main strength – paving the way for more integrated and informed decision-making. Strategic flood management (SFM) uses a portfolio of responses to manage flood risks and promote opportunities ecosystem services. It recognizes the interrelationships between the actions taken and the contribution flood management provides to integrated river basin and coastal zone planning. The paper results from an international collaborative effort for research and distils approaches to flood risk and water management in challenging large-scale and complex environments. The paper provides an overview of the emerging good practice in SFM, including (i) an analysis of the flood events that have shaped changes in approach, (ii) the purpose and characteristics of modern SFM, (iii) the goals, objectives and outcomes sought and (iv) the challenges associated with implementation (together with some of the common pitfalls and misconceptions). Our conclusions are encapsulated in a set of ‘golden rules’ that underpin sound SFM decision-making

Genetic Interaction between Mfrp and Adipor1 Mutations Affect Retinal Disease Phenotypes

Adipor1tm1Dgen and Mfrprd6 mutant mice share similar eye disease characteristics. Previously, studies established a functional relationship of ADIPOR1 and MFRP proteins in maintaining retinal lipidome homeostasis and visual function. However, the independent and/or interactive contribution of both genes to similar disease phenotypes, including fundus spots, decreased axial length, and photoreceptor degeneration has yet to be examined. We performed a gene-interaction study where homozygous Adipor1tm1Dgen and Mfrprd6 mice were bred together and the resulting doubly heterozygous F1 offspring were intercrossed to produce 210 F2 progeny. Four-month-old mice from all nine genotypic combinations obtained in the F2 generation were assessed for white spots by fundus photo documentation, for axial length by caliper measurements, and for photoreceptor degeneration by histology. Two-way factorial ANOVA was performed to study individual as well as gene interaction effects on each phenotype. Here, we report the first observation of reduced axial length in Adipor1tmlDgen homozygotes. We show that while Adipor1 and Mfrp interact to affect spotting and degeneration, they act independently to control axial length, highlighting the complex functional association between these two genes. Further examination of the molecular basis of this interaction may help in uncovering mechanisms by which these genes perturb ocular homeostasis