Label‐free, whole‐brain in vivo mapping in an adult vertebrate with third harmonic generation microscopy

Akbari, Najva; Tatarsky, Rose L.; Kolkman, Kristine E.; Fetcho, Joseph R.; Xu, Chris; Bass, Andrew H.

doi:10.1002/cne.25614

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2024

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Cited by 2 publications

References 77 publications

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Danionella fishes

Bass,

Perelmuter

2024

Nat Methods

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Danionella fishes

Bass,

Perelmuter

2024

Nat Methods

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Label-free multiphoton imaging reveals volumetric shifts across development in sensory-related brain regions of a miniature transparent vertebrate

Tatarsky,

Akbari,

Wang

et al. 2024

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Animals integrate information from different sensory modalities as they mature and perform increasingly complex behaviors. This may parallel differential investment in specific brain regions depending on the demands of changing sensory inputs. To investigate developmental changes in the volume of canonical sensory integration brain regions, we used third harmonic generation imaging for morphometric analysis of forebrain and midbrain regions from 5 to 90 days post fertilization (dpf) inDanionella dracula, a transparent, miniature teleost fish whose brain is optically accessible throughout its lifespan. Relative to whole brain volume, increased volume or investment in telencephalon, a higher order sensory integration center, and torus longitudinalis (TL), a midbrain visuomotor integration center, is relatively consistent from 5 to 30 dpf, until it increases at 60 dpf, followed by another increase at 90 dpf, as animals reach adulthood. In contrast, investment in midbrain optic tectum (TeO), a retinal-recipient target, progressively decreases from 30-90 dpf, whereas investment is relatively consistent across all stages for the midbrain torus semicircularis (TS), a secondary auditory and mechanosensory lateral line center, and the olfactory bulb (OB), a direct target of the olfactory epithelium. In sum, increased investment in higher order integration centers (telencephalon, TL) occurs as juveniles reach adulthood and exhibit more complex cognitive tasks, whereas investment in modality-dominant regions occurs in earlier stages (TeO) or is relatively consistent across development (TS, OB). Complete optical access throughoutDanionella’s lifespan provides a unique opportunity to investigate how changing brain structure over development correlates with changes in connectivity, microcircuitry, or behavior.

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Label‐free, whole‐brain in vivo mapping in an adult vertebrate with third harmonic generation microscopy

Cited by 2 publications

References 77 publications

Danionella fishes

Danionella fishes

Label-free multiphoton imaging reveals volumetric shifts across development in sensory-related brain regions of a miniature transparent vertebrate

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