Impact of Carica papaya L. Fruit juice on plasma variables and tissue glycogen of induced hyperglycemic albino rats

It was aimed at to evaluate the activity of Carica papaya fruit juice on induced diabetic rats (Rattus norvegicus) with a view of proposing a management scheme. Animals were sacrificed after treatment with unripe and ripe papaya juice. The plasma glucose, cholesterol, protein and tissue glycogen concentrations were estimated. Feeding of papaya juice raised the levels of these parameters more than the controlled value throughout the work. The results showed that the concentrations of these parameters were significantly increased (p<0.05). The rise was more with unripe papaya when compared to ripe papaya. However, papaya intake must be with caution since its consumption increases blood glucose concentration.Keywords: Papaya, Fruit juice, Albino rats, Plasma variables, Hyperglycemia, Diabete

The Buzz of Apiology and The Molecular Secrets of Vectors: Unraveling the Genetics and Physiology of Insects in Ecology

Insects, as some of the most diverse and ecologically influential organisms on our planet, continue to captivate the scientific community's attention. This abstract provides an overview of the fascinating world of apiology and the exploration of molecular secrets within insect vectors, shedding light on the genetics and physiology of these remarkable creatures in the context of ecology. Apiology, the study of bees and their intricate social structures, has experienced a resurgence of interest due to the critical roles that bees play in pollination and ecosystem health. Researchers have delved deep into the genetics and physiology of bees, uncovering the molecular mechanisms underlying their remarkable communication, navigation, and foraging behaviors. This knowledge is instrumental in addressing the challenges posed by bee population decline and its implications for global agriculture. In parallel, the study of insect vectors, such as mosquitoes and ticks, has gained prominence as they continue to transmit diseases that affect human and animal populations worldwide. This paper highlights the intersection of apiology and vector biology, emphasizing the importance of unraveling the genetics and physiology of insects in ecological contexts. By deciphering the molecular secrets of these insects, we can enhance our understanding of their roles in ecosystems, mitigate the impact of disease vectors, and implement conservation measures to protect vital pollinators. Ultimately, these endeavors contribute to a more comprehensive comprehension of the complex web of life on Earth and inspire innovative solutions to pressing ecological challenges