Home Publications Linkage-spec…mic variation Linkage-specific deubiquitylation by OTUD5 defines an embryonic pathway intolerant to genomic variation 491 views Added January 24th 2021, 4:35 PM Author: newseditor Rating Unrated Rating: Latest News Glial amplification of synaptic signals How disgust evolved as a human emotion 'Mini brain' organoids mimic human brain development A new gene-editing tool! DNA methylation changes in shift workers with sleep disorder! View all Other Top Stories Microtubule binding region tau (MTBR tau) in spinal fluid indicates stage of Alzheimer's Zebra fish, an animal model to study chronic stress? Childhood Brain Function and Memory Skills Shape Each Other Electrical nerve stimulation to control hypertension? Glutamate plume in migraine Archives Protocols Dual-Angle Protocol for Doppler Optical Coherence Tomography to Improve Retinal Blood Flow Measur… Detection of protein SUMOylation in vivo In vivo analysis of protein sumoylation induced by a viral protein: Detection of HCMV pp71-induce… Determination of SUMOylation sites miR-Selection 3'UTR Target Selection Kit View all Publications Age-Dependent Abiotic Stress Resilience in Plants Social Media and Well-Being: Pitfalls, Progress, and Next Steps Molecular Determinants of Flavivirus Virion Assembly Sequential Activation of Guide RNAs to Enable Successive CRISPR-Cas9 Activities Differential DNA methylation in recovery from shift work disorder View all Presentations Brain‐Gut‐Axis CRISPR/Cas9 for advanced DNA and RNA editing Mitochondrial Disorders Blood Brain Barrier Chromatin Structure View all Posters ASCO-2020-CENTRAL NERVOUS SYSTEM TUMORS ASCO-2020-DEVELOPMENTAL THERAPEUTICS–IMMUNOTHERAPY ASCO-2020-DEVELOPMENTAL THERAPEUTICS–MOLECULARLY TARGETED AGENTS AND TUMOR BIOLOGY ASCO-2020-CANCER PREVENTION, RISK REDUCTION, AND GENETICS ASCO-2020-BREAST CANCER–METASTATIC View all
Latest News
Glial amplification of synaptic signals
How disgust evolved as a human emotion
'Mini brain' organoids mimic human brain development
A new gene-editing tool!
DNA methylation changes in shift workers with sleep disorder!
Other Top Stories
Microtubule binding region tau (MTBR tau) in spinal fluid indicates stage of Alzheimer's
Zebra fish, an animal model to study chronic stress?
Childhood Brain Function and Memory Skills Shape Each Other
Electrical nerve stimulation to control hypertension?
Glutamate plume in migraine
Protocols
Dual-Angle Protocol for Doppler Optical Coherence Tomography to Improve Retinal Blood Flow Measur…
Detection of protein SUMOylation in vivo
In vivo analysis of protein sumoylation induced by a viral protein: Detection of HCMV pp71-induce…
Determination of SUMOylation sites
miR-Selection 3'UTR Target Selection Kit
Publications
Age-Dependent Abiotic Stress Resilience in Plants
Social Media and Well-Being: Pitfalls, Progress, and Next Steps
Molecular Determinants of Flavivirus Virion Assembly
Sequential Activation of Guide RNAs to Enable Successive CRISPR-Cas9 Activities
Differential DNA methylation in recovery from shift work disorder
Presentations
Brain‐Gut‐Axis
CRISPR/Cas9 for advanced DNA and RNA editing
Mitochondrial Disorders
Blood Brain Barrier
Chromatin Structure
Posters
ASCO-2020-CENTRAL NERVOUS SYSTEM TUMORS
ASCO-2020-DEVELOPMENTAL THERAPEUTICS–IMMUNOTHERAPY
ASCO-2020-DEVELOPMENTAL THERAPEUTICS–MOLECULARLY TARGETED AGENTS AND TUMOR BIOLOGY
ASCO-2020-CANCER PREVENTION, RISK REDUCTION, AND GENETICS
ASCO-2020-BREAST CANCER–METASTATIC