Widespread hydrogen bonding in the proteins of HIV-1 may confer carcinogenic risks to AIDS patients

The generation and use of animal models of osteosarcoma in cancer research

Osteosarcoma is the most common malignant bone tumor affecting children and adolescents. Currently, the most common treatment is surgery combined with neoadjuvant chemotherapy. Although the survival rate of patients with osteosarcoma has improved in recent years, it remains poor when the tumor(s) progress and distant metastases develop. Therefore, better animal models that more accurately replicate the natural progression of the disease are needed to develop improved prognostic and diagnostic markers, as well as targeted therapies for both primary and metastatic osteosarcoma. The present review described animal models currently being used in research investigating osteosarcoma, and their characteristics, advantages, and disadvantages. These models may help elucidate the pathogenic mechanism(s) of osteosarcoma and provide evidence to support and develop clinical treatment strategies.

Single-stranded DNA generated by high temperature accepts protons and builds up mutagenic and carcinogenic strong acids

Malignancies are caused by genetic or environmental factors. Esophageal carcinoma can be triggered by consumption of hot food and beverages. Here we propose that high temperature is one of the culprits and it leads to DNA denaturation. Subsequently the exposed hydrogen bonding acceptors in single stranded DNA attract protons which enhance the formation of mutagenic and carcinogenic strong acids such as HCl. Faster mutation of single-stranded DNA viruses than that of double-stranded DNA viruses lends support to this theory.