Solid-state nanopore channels with DNA selectivity

Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices. In such a device, the DNA sequence would be determined by measuring how the forces on the DNA molecules, and also the ion currents through the nanopore, change as the molecules pass through the nanopore. Unlike their biological counterparts, solid-state nanopores have the advantage that they can withstand a wide range of analyte solutions and environments. Here we report solid-state nanopore channels that are selective towards single-stranded DNA (ssDNA). Nanopores functionalized with a ‘probe’ of hair-pin loop DNA can, under an applied electrical field, selectively transport short lengths of ‘target’ ssDNA that are complementary to the probe. Even a single base mismatch between the probe and the target results in longer translocation pulses and a significantly reduced number of translocation events. Our single-molecule measurements allow us to measure separately the molecular flux and the pulse duration, providing a tool to gain fundamental insight into the channel – molecule interactions. The results can be explained in the conceptual framework of diffusive molecular transport with particle – channel interactions

Cerebral O2 supply thresholds for the preservation of electrocortical brain activity during hypotension in near-term-born lambs.

Item does not contain fulltextThe fetal brain develops rapidly during the last trimester of pregnancy. Therefore, the brain of infants who are born preterm is vulnerable to changes in oxygen and nutrient supply in the neonatal period. The objective was to determine the effect of gestational age (GA) on the cerebral O2 supply threshold level for preservation of brain function during hypotension in near-term-born lambs. Lambs were delivered at 141 or 127 d of gestation. Hypotension was induced by stepwise withdrawal of blood. Mean arterial blood pressure (MABP) baseline levels were 63.2 (6.4) in 141-d and 54.4 (15.5) mm Hg in 127-d lambs. The MABP threshold below which MABP and blood flow in the left carotid artery were linearly related was 36.1 (13.1) mm Hg in 141-d lambs. In 127-d lambs, MABP and blood flow in the left carotid artery were linearly related over the whole range of recorded MABP values. Electrocortical brain activity (ECBA) was used as a measure of brain function. Thresholds of MABP for maintenance of ECBA were reached at, respectively, 31.6% (4.9%) of baseline in 141-d and 61.9% (13.0%) of baseline MABP in 127-d lambs. However, thresholds of cerebral O2 supply for maintenance of ECBA were similar in both GA groups. We conclude that thresholds of cerebral O2 supply for maintenance of brain cell function are independent of GA but are reached at higher MABP levels in 127-d than in 141-d lambs and therefore places the sick preterm infant easily at risk for ischemic cerebral injury