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Related Concept Videos

Depth Perception and Spatial Vision01:15

Depth Perception and Spatial Vision

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Depth perception is the ability to perceive objects three-dimensionally. It relies on two types of cues: binocular and monocular. Binocular cues depend on the combination of images from both eyes and how the eyes work together. Since the eyes are in slightly different positions, each eye captures a slightly different image. This disparity between images, known as binocular disparity, helps the brain interpret depth. When the brain compares these images, it determines the distance to an object.
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Selected Data About Geographic Locations01:25

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Geographic Information Systems (GIS) rely on two core types of data: spatial data and attribute data.Spatial DataSpatial data defines the physical location of features within a coordinate system, typically expressed in terms of latitude and longitude. It provides precise positioning for elements like roads, rivers, or buildings.Attribute DataAttribute data complements spatial data by adding descriptive information about these features. For example, a road's spatial data includes its start and...
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Thematic Layering in GIS01:30

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In the past, planning projects such as schools or public facilities required extensive manual effort to gather and compile data. Information such as property boundaries, soil characteristics, road networks, zoning regulations, and flood zones had to be sourced individually from courthouses, utility providers, and registry offices. Assembling these datasets into a coherent format often took several months, delaying project timelines.The introduction of Geographic Information Systems (GIS)...
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Per-Unit Sequence Models01:26

Per-Unit Sequence Models

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An ideal Y-Y transformer, grounded through neutral impedances, displays per-unit sequence networks akin to those of a single-phase ideal transformer when subjected to balanced positive- or negative-sequence currents. These currents do not produce neutral currents, and their associated voltage drops.
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Introduction to GIS01:28

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Geographic Information Systems (GIS) are tools for storing, analyzing, and displaying spatial data alongside related attributes. Unlike traditional information systems that address general queries, GIS incorporates spatial components, enabling users to answer "where" and "how far." For example, GIS can process housing data linked to geographic locations like zip codes, allowing insights into population density or housing distribution through thematic maps.GIS integrates technologies such as...
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In the same year as the discovery of the Sanger sequencing method, another group of scientists, Allan Maxam and Walter Gilbert, demonstrated their chemical-cleavage method for DNA sequencing. The Maxam-Gilbert method relies on using different chemicals that can cleave the DNA sequence at specific sites, the separation of resulting DNA fragments of variable size using electrophoresis, and deciphering the DNA sequence from the resulting gel bands.
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Updated: Dec 22, 2025

Spatially Compact Arrangement of Larval Zebrafish Sections for Spatial Transcriptomic Analysis
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Spatial Sequencing: A Perspective.

Brian M Turczyk1, Michele Busby1, Allison L Martin1

  • 1ReadCoor, Incorporated, Cambridge, Massachusetts, USA.

Journal of Biomolecular Techniques : JBT
|May 9, 2020
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Summary
This summary is machine-generated.

Fluorescent spatial sequencing enables precise nucleic acid identification within cells. This technology provides a multiomic solution for understanding cell fate and tissue development.

Keywords:
FISSEQbrain atlasmolecular images

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Area of Science:

  • Molecular Biology
  • Genomics
  • Biotechnology

Background:

  • Next-generation sequencing (NGS) traditionally lacks spatial context.
  • Understanding cellular microenvironments is crucial for development and disease research.

Purpose of the Study:

  • To introduce fluorescent spatial sequencing as a novel technology.
  • To highlight its capabilities in multiplexed transcriptional target identification.
  • To discuss its potential in multiomic research applications.

Main Methods:

  • Fluorescent spatial sequencing for in situ nucleic acid identification.
  • Multiplexed assignment of locations to transcriptional targets.
  • Comparison with existing spatial imaging technologies.

Main Results:

  • Enables identification of hundreds of transcriptional targets with precise spatial localization.
  • Offers a data-rich, multiomic approach to biological questions.
  • Provides insights into cell fate determination within tissue microenvironments.

Conclusions:

  • Fluorescent spatial sequencing revolutionizes spatial biology by integrating NGS with cellular context.
  • This technology is poised to advance understanding of cell and tissue development and disease progression.