A Map of the Brain: Allan Jones at TEDxCaltech

TEDx Talks
8 Feb 201315:30

Summary

TLDRThis transcript explores the intricate complexities of the human brain, emphasizing its metabolic voracity and unique cellular structures. Using advanced techniques like MRI, diffusion tensor imaging, and RNA extraction, researchers from the Allen Institute for Brain Science map brain functions down to the genetic level. The presentation highlights the vast amount of data collected, the importance of understanding cell types, and how these insights may lead to advancements in neuroscience. The goal is to deepen our knowledge of the brain’s functions, particularly how genes and cell types contribute to brain activity and disease.

Takeaways

  • 🧠 The human brain is a highly complex and metabolically active organ, using about a quarter of the body's oxygen and a fifth of its glucose.
  • 🔬 Researchers use various technologies, such as MRI and microscopy, to study the brain's structure and function, identifying specific areas associated with tasks.
  • 🧪 A stain called Nissl is used to view cell bodies in the brain, revealing a six-layer structure in the neocortex, which plays a role in making us uniquely human.
  • 🧬 There are 86 billion neurons in the brain, distributed unevenly and serving different functions. Neurons vary in size, function, and connections.
  • 🔍 At the cellular level, researchers aim to understand which genes are active in different cell types and how they influence brain function.
  • 🧪 The Allen Institute collects fresh brain tissue within 24 hours of death to study gene expression and cell activity, focusing on high-quality brain samples.
  • 🧑‍🔬 A systematic approach is used to digitize brain data, involving MRI scans, histological stains, and laser microscopy to extract genetic material like RNA for analysis.
  • 🌐 The Allen Institute's data is shared globally, providing a free resource for scientists studying brain anatomy and genetic expression to understand diseases and genetic diversity.
  • 👩‍🔬 Studies reveal that there is a high degree of correlation in gene expression across different human brains, but some differences are linked to specific cell populations.
  • 🔄 Future research at the Allen Institute will focus on understanding cell types and their differences, connecting molecular, electrophysiological, and functional properties to improve our understanding of the brain.

Q & A

  • What is one of the first things noticeable when observing a fresh human brain?

    -One of the first noticeable things is the amount of vasculature covering the brain, highlighting its high metabolic activity.

  • Why is the brain considered metabolically active?

    -The brain uses approximately a quarter of the oxygen and a fifth of the glucose in the blood, making it a highly metabolically active organ.

  • What tools and technologies have historically been used to study the brain?

    -Tools such as pen and paper during the age of da Vinci, microscopy techniques, and modern imaging technologies like MRI have been used to study the brain.

  • What is Nissl staining, and what does it reveal about brain tissue?

    -Nissl staining is a technique that stains cell bodies purple, revealing the structure and texture of brain tissue, including the neocortex's six-layer structure.

  • How many neurons are present in the human brain, and how are they distributed?

    -The human brain has about 86 billion neurons, which are not evenly distributed but concentrated in specific structures, each with unique functions.

  • What drives the activity of different cell types in the brain?

    -The activity of different cell types is driven by the genes that are turned on in each cell, which influence protein expression and the cell's function and morphology.

  • Why does the Allen Institute collect brain tissue within 24 hours after death?

    -Brain tissue is collected within 24 hours to prevent tissue degradation, ensuring the quality of the samples for detailed cellular and genetic analysis.

  • What kind of data does the Allen Institute generate from brain tissue samples?

    -The Institute generates data about the structure, gene expression, and metabolic activity of the brain by analyzing brain tissue with techniques like MRI, diffusion tensor imaging, RNA extraction, and gene expression mapping.

  • What have researchers learned about human genetic diversity through brain studies?

    -Despite human uniqueness, brain studies have shown a high degree of genetic correspondence in gene expression across individuals, but specific differences often appear in particular cell types.

  • What is the goal of the Allen Institute’s research for the next decade?

    -The goal is to understand the different cell types in the brain, their connections, and how they contribute to the brain’s functional properties, including a focus on both human and mouse brains.

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Related Tags
Brain researchNeuroscienceHuman brainCell biologyGenetic studiesImaging technologyAllen InstituteBrain mappingStem cellsCognitive science