| Judul | Development of optical methods for real-time whole-brain functional imaging of zebrafish neuronal activity / LAPO TURRINI |
| Pengarang | TURRINI, LAPO |
| Penerbitan | Firenze : Firenze University Press, 2020 |
| Deskripsi Fisik | 202 p. :ilus |
| ISBN | 9788855180702 |
| Subjek | VETERINARY NEUROLOGY |
| Abstrak | Each one of us in his life has, at least once, smelled the scent of roses, read one canto of Dante’s Commedia or listened to the sound of the sea from a shell. All of this is possible thanks to the astonishing capabilities of an organ, such as the brain, that allows us to collect and organize perceptions coming from sensory organs and to produce behavioural responses accordingly. Studying an operating brain in a non-invasive way is extremely difficult in mammals, and particularly in humans. In the last decade, a small teleost fish, zebrafish (Danio rerio), has been making its way into the field of neurosciences. The brain of a larval zebrafish is made up of 'only' 100000 neurons and it’s completely transparent, making it possible to optically access it. Here, taking advantage of the best of currently available technology, we devised optical solutions to investigate the dynamics of neuronal activity throughout the entire brain of zebrafish larvae. |
| Bentuk Karya | Tidak ada kode yang sesuai |
| Target Pembaca | Tidak ada kode yang sesuai |
| Lokasi Akses Online |
https://oer.unair.ac.id/files/original/24d0a1b4e9e0de8ccc22848e323dcccb.pdf |
| No Barcode | No. Panggil | Akses | Lokasi | Ketersediaan |
|---|---|---|---|---|
| 070125192 | 636.108 968 Tur d | Baca Online | Perpustakaan Pusat - Online Resources Ebook |
Tersedia |
| Tag | Ind1 | Ind2 | Isi |
| 001 | INLIS000000000164633 | ||
| 005 | 20250919035447 | ||
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| 020 | # | # | $a 9788855180702 |
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| 082 | # | # | $a 636.108 968 |
| 084 | # | # | $a 636.108 968 Tur d |
| 100 | 1 | # | $a TURRINI, LAPO |
| 245 | 1 | # | $a Development of optical methods for real-time whole-brain functional imaging of zebrafish neuronal activity /$c LAPO TURRINI |
| 260 | # | # | $a Firenze :$b Firenze University Press,$c 2020 |
| 300 | # | # | $a 202 p. : $b ilus |
| 520 | # | # | $a Each one of us in his life has, at least once, smelled the scent of roses, read one canto of Dante’s Commedia or listened to the sound of the sea from a shell. All of this is possible thanks to the astonishing capabilities of an organ, such as the brain, that allows us to collect and organize perceptions coming from sensory organs and to produce behavioural responses accordingly. Studying an operating brain in a non-invasive way is extremely difficult in mammals, and particularly in humans. In the last decade, a small teleost fish, zebrafish (Danio rerio), has been making its way into the field of neurosciences. The brain of a larval zebrafish is made up of 'only' 100000 neurons and it’s completely transparent, making it possible to optically access it. Here, taking advantage of the best of currently available technology, we devised optical solutions to investigate the dynamics of neuronal activity throughout the entire brain of zebrafish larvae. |
| 650 | # | # | $a VETERINARY NEUROLOGY |
| 856 | # | # | $a https://oer.unair.ac.id/files/original/24d0a1b4e9e0de8ccc22848e323dcccb.pdf |
| 990 | # | # | $a 070125192 |
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