Affiliation 4 incorrectly read 'University of the Basque Country (Ikerbasque), University of the Basque Country and Donostia International Physics Center, San Sebastian 20018, Spain.'Also, the affiliations of Ignacio Arganda-Carreras with 'IKERBASQUE, Basque Foundation for Science, Bilbao, 48013, Spain' and 'Donostia International Physics Center (DIPC), San Sebastian, 20018, Spain' were inadvertently omitted.Additionally, the third sentence of the first paragraph of the Results section entitled 'Multicontrast organ-scale imaging with ChroMS microscopy' incorrectly read 'For example, one can choose lambda1 = 850 and lambda2 = 110 nm for optimal two-photon excitation of blue and red chromophores.
View Article and Find Full Text PDFLarge-scale microscopy approaches are transforming brain imaging, but currently lack efficient multicolor contrast modalities. We introduce chromatic multiphoton serial (ChroMS) microscopy, a method integrating one-shot multicolor multiphoton excitation through wavelength mixing and serial block-face image acquisition. This approach provides organ-scale micrometric imaging of spectrally distinct fluorescent proteins and label-free nonlinear signals with constant micrometer-scale resolution and sub-micron channel registration over the entire imaged volume.
View Article and Find Full Text PDFNerve growth factor (NGF) promotes growth, differentiation, and survival of sensory neurons in the mammalian nervous system. Little is known about how NGF elicits faster axon outgrowth or how growth cones integrate and transform signal input to motor output. Using cultured mouse dorsal root ganglion neurons, we found that myosin II (MII) is required for NGF to stimulate faster axon outgrowth.
View Article and Find Full Text PDFVariable requirements for actin during clathrin-mediated endocytosis (CME) may be related to regional or cellular differences in membrane tension. To compensate, local regulation of force generation may be needed to facilitate membrane curving and vesicle budding. Force generation is assumed to occur primarily through actin polymerization.
View Article and Find Full Text PDFRecent evidence suggests that endocytosis, not exocytosis, can be rate limiting for neurotransmitter release at excitatory CNS synapses during sustained activity and therefore may be a principal determinant of synaptic fatigue. At low stimulation frequencies, the probability of synaptic release is linked to the probability of synaptic retrieval such that evoked release results in proportional retrieval even for release of single synaptic vesicles. The exact mechanism by which the retrieval rates are coupled to release rates, known as compensatory endocytosis, remains unknown.
View Article and Find Full Text PDFCold Spring Harb Protoc
November 2012
Although fluorescently labeled structures can be analyzed more easily at high resolution in fixed-tissue preparations than in living animals, some biological questions can only be answered by time-lapse imaging. Changes in nervous system wiring during development cannot be determined reliably by taking tissue from different animals at staggered time points. Rather, the same cells and connections must be viewed repeatedly.
View Article and Find Full Text PDFDuring mammalian development, neuromuscular junctions and some other postsynaptic cells transition from multiple- to single-innervation as synaptic sites are exchanged between different axons. It is unclear whether one axon invades synaptic sites to drive off other inputs or alternatively axons expand their territory in response to sites vacated by other axons. Here we show that soon-to-be-eliminated axons rapidly reverse fate and grow to occupy vacant sites at a neuromuscular junction after laser removal of a stronger input.
View Article and Find Full Text PDFIEEE Trans Vis Comput Graph
December 2010
Histology is the study of the structure of biological tissue using microscopy techniques. As digital imaging technology advances, high resolution microscopy of large tissue volumes is becoming feasible; however, new interactive tools are needed to explore and analyze the enormous datasets. In this paper we present a visualization framework that specifically targets interactive examination of arbitrarily large image stacks.
View Article and Find Full Text PDFMethods Cell Biol
February 2009
In vivo imaging is the most direct way to uncover the dynamic events that occur during neural development. This approach is especially challenging in developing mammals where technical hurdles related to optical resolution, animal movement, phototoxicity, and postoperative complications need to be addressed. In our work concerning the process of naturally occurring synapse elimination at developing neuromuscular junctions, these technical issues are critical because we need to resolve multiple and very fine single axons that converge on the same synaptic site.
View Article and Find Full Text PDFGuidance cues and signal transduction mechanisms acting at the nerve growth cone are fairly well understood, but the intracellular mechanisms operating to change the direction of axon outgrowth remain unknown. We now show that growth cones integrate myosin II-dependent contraction for rapid, coordinated turning at borders of laminin stripes in response to signals from laminin-activated integrin receptors; in the absence of myosin II activity, outgrowth continues across the borders.
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