The natural and social history of the indigenous lands and protected areas corridor of the Xingu River basin.

The 280,000 km² Xingu indigenous lands and protected areas (ILPAs) corridor, inhabited by 24 indigenous peoples and about 215 riverine (ribeirinho) families, lies across active agriculture frontiers in some of the historically highest-deforestation regions of the Amazon. Much of the Xingu is anthropogenic landscape, densely inhabited and managed by indigenous populations over the past millennium. Indigenous and riverine peoples' historical management and use of these landscapes have enabled their long-term occupation and ultimately their protection.

The first transmembrane domain (TM1) of β2-subunit binds to the transmembrane domain S1 of α-subunit in BK potassium channels.

The BK channel is one of the most broadly expressed ion channels in mammals. In many tissues, the BK channel pore-forming α-subunit is associated to an auxiliary β-subunit that modulates the voltage- and Ca(2+)-dependent activation of the channel. Structural components present in β-subunits that are important for the physical association with the α-subunit are yet unknown.

[Use of telemedicine technology as a strategy to promote health care of riverside communities in the Amazon: experience with interdisciplinary work, integrating NHS guidelines].

This article aims at presenting an experience of professional and medical assistance education using telemedicine as a technology for the promotion and prevention in health care as well as professional qualification of the riverside population living in the margins of Madeira river, in the State of Rondônia. This project comprised a small pole of the telemedicine in the community of Santa Catarina, located by Madeira river, 200 km from the city of Porto Velho, Rondônia State. Field experience was performed between July 17 and 31, 2006, promoting the inclusion of inhabitants of nine riverside communities.

Dissection of the components for PIP2 activation and thermosensation in TRP channels.

Phosphatidylinositol 4,5-bisphosphate (PIP2) plays a central role in the activation of several transient receptor potential (TRP) channels. The role of PIP2 on temperature gating of thermoTRP channels has not been explored in detail, and the process of temperature activation is largely unexplained. In this work, we have exchanged different segments of the C-terminal region between cold-sensitive (TRPM8) and heat-sensitive (TRPV1) channels, trying to understand the role of the segment in PIP2 and temperature activation.

A hot-sensing cold receptor: C-terminal domain determines thermosensation in transient receptor potential channels.

Temperature transduction in mammals is possible because of the presence of a set of temperature-dependent transient receptor potential (TRP) channels in dorsal root ganglia neurons and skin cells. Six thermo-TRP channels, all characterized by their unusually high temperature sensitivity (Q10 > 10), have been cloned: TRPV1-4 are heat activated, whereas TRPM8 and TRPA1 are activated by cold. Because of the lack of structural information, the molecular basis for regulation by temperature remains unknown.