Neuroepigenomics in aging and disease / edited by Raul Delgado-Morales.
Material type:
TextSeries: Advances in experimental medicine and biology ; 978.Publisher: Cham : Springer, 2017Description: 525 pages : illustrations (black and white, and colour) ; 24 cmContent type: text | still image Media type: unmediated Carrier type: volumeISBN: 9783319538884 (hbk.) :Subject(s): Older people -- Diseases -- Treatment | Aging -- Genetic aspects | Health and Fitness | Health and WellbeingDDC classification: 618.9'7 Summary: Epigenetic mechanisms (DNA modifications, histone alterations and non-coding RNAs) are crucial for transcriptional regulation and alterations of the 'physiological epigenome' are increasingly associated with human diseases. During the last decade the emerging field of neuroepigenomics have started to impact tremendously in areas such learning and memory, addiction or neurodegeneration. This expert volume covers the role of epigenetic molecular mechanism in regulation of central nervous system's function, one of the most exciting areas of contemporary molecular neuroscience.
| Item type | Current library | Home library | Shelving location | Class number | Status | Date due | Barcode | Item reservations | |
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Paul Hamlyn Library | Paul Hamlyn Library | Floor 2 | 612.8 NEU (Browse shelf(Opens below)) | Not for loan | 06529291 | |||
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Reference book
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Paul Hamlyn Library | Paul Hamlyn Library | Floor 2 | 612.8 NEU (Browse shelf(Opens below)) | Not for loan | 06530192 |
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Epigenetic mechanisms (DNA modifications, histone alterations and non-coding RNAs) are crucial for transcriptional regulation and alterations of the 'physiological epigenome' are increasingly associated with human diseases. During the last decade the emerging field of neuroepigenomics have started to impact tremendously in areas such learning and memory, addiction or neurodegeneration. This expert volume covers the role of epigenetic molecular mechanism in regulation of central nervous system's function, one of the most exciting areas of contemporary molecular neuroscience.
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