Insights into the role of 3-O-sulfotransferase in heparan sulfate biosynthesis

3-O-Sulfotransferase enzyme (sHS) from Litopenaeus vannamei was cloned and its substrate specificity was investigated against a number of GAG structures, including modified heparin polysaccharides and model oligosaccharides. For the heparin polysaccharides, derived from porcine intestinal mucosa heparin, sulfate groups were incorporated into glucosamine residues containing both N-sulfated and N-acetylated substitution within the regions of the predominant repeating disaccharide, either I–ANS or I–ANAc. However, the resulting polysaccharides did not stabilize antithrombin, which is correlated with anticoagulant activity. It was also shown that the enzyme was able to sulfate disaccharides, I2S–ANS and G–ANAc. The results further illustrate that 3-O-sulfation can be induced outside of the classical heparin-binding pentasaccharide sequence, show that 3-O-sulfation of glucosamine is not a sufficient condition for antithrombin stabilization and suggest that the use of this enzyme during HS biosynthesis may not occur as the final enzymatic step

Conhecimento das propriedades físicas e da interação do laser com os tecidos biológicos na odontologia Knowledge of the physical properties and interaction of laser with biological tissue in dentistry

A tendência da odontologia é a incorporação de métodos menos invasivos com a finalidade de minimizar a dor e o desconforto durante e após as intervenções odontológicas. Por isso, acredita-se que a laserterapia seja uma excelente opção de tratamento, já que apresenta efeitos benéficos para os tecidos irradiados, como ativação da microcirculação, produção de novos capilares, efeitos anti-inflamatórios e analgésicos, além de estímulo ao crescimento e à regeneração celular. O entendimento da interação entre os lasers e os tecidos baseia-se principalmente no entendimento das reações que podem ser induzidas nesses tecidos pela luz laser. Este trabalho se propõe a mostrar a relevância do conhecimento das propriedades físicas do laser, bem como sua interação com os tecidos biológicos, considerando que os efeitos e os mecanismos de ação da luz laser são complexos e alvos de inúmeras pesquisas com vistas a um melhor delineamento de suas formas de aplicação e indicações.<br>The trend in dentistry is to incorporate less invasive methods to minimize pain and discomfort during and after dental intervention. Therefore, it is believed that laser therapy is an excellent treatment option, since it has beneficial effects for the irradiated tissues, such as activation of microcirculation, production of new capillaries, inflammatory and analgesic effects, in addition to stimulation of growth and cell regeneration. The comprehension of the interaction between lasers and tissue is based mainly on understanding the reactions that can be induced in those tissues by laser. This work intends to show how important it is to know the physical properties of laser as well as its interactions with biological tissues, since its effects and mechanisms of action are complex and are the object of various studies to better understand its forms of application and indications