human | Q5 |
P496 | ORCID iD | 0000-0003-1745-8635 |
P1153 | Scopus author ID | 12445618200 |
P735 | given name | Erika | Q4962499 |
Erika | Q4962499 | ||
P106 | occupation | researcher | Q1650915 |
P21 | sex or gender | female | Q6581072 |
Q58070659 | A 'nano' era for electrophysiology |
Q46172340 | A back door to the neuron |
Q40326630 | A clonal cell line from immortalized olfactory ensheathing glia promotes functional recovery in the injured spinal cord |
Q42456002 | A genetic handle on brain circuits |
Q58070629 | A handle on neurodegenerative disease complexity |
Q50946781 | A technology for memory. |
Q58070791 | A toolset for the proficient geneticist |
Q58070570 | All-in-one optogenetics |
Q40198659 | BDNF production by olfactory ensheathing cells contributes to axonal regeneration of cultured adult CNS neurons. |
Q95481500 | Bacteria's puppeteers |
Q58070666 | Bearing the mark |
Q58070556 | Bessel beams beyond the limit |
Q58070799 | Bound to the messenger |
Q49160574 | Brain function marries anatomy |
Q58070707 | Brains gone wild |
Q58070518 | Bring on the neuro tools |
Q58070716 | Building a megabrain atlas |
Q44621950 | Calcium sensors reach new heights |
Q58070808 | Collective brain maps |
Q58070671 | Degrading proteins with intracellular antibodies |
Q42624810 | Dopamine stimulation of postnatal murine subventricular zone neurogenesis via the D3 receptor |
Q58070726 | Expression of plasminogen activator inhibitor-1 by olfactory ensheathing glia promotes axonal regeneration |
Q24631827 | Eyes wide open: a critical review of sphere-formation as an assay for stem cells |
Q43499746 | Focus on mapping the brain |
Q58070603 | For every protein its tag |
Q36158688 | Generation of three-dimensional multiple spheroid model of olfactory ensheathing cells using floating liquid marbles. |
Q40278512 | Genes associated with adult axon regeneration promoted by olfactory ensheathing cells: a new role for matrix metalloproteinase 2. |
Q58070740 | High-tech Petri dishes |
Q58070610 | Imaging life with thin sheets of light |
Q38308941 | Intracellular mini-binders |
Q58070527 | Knocking down Goliath |
Q54721895 | Light on genome function. |
Q58070617 | Light-based electrophysiology |
Q58070577 | Lighting the cellular fuel gauge |
Q27332261 | Low-dose curcumin stimulates proliferation, migration and phagocytic activity of olfactory ensheathing cells |
Q58070821 | Made locally |
Q44073620 | Model organisms: Fly walk |
Q58070561 | Near-infrared probes |
Q58070826 | Neurons light the way |
Q58070833 | Neuroscience in a virtual world |
Q45113461 | Neuroscience: An enhanced view of the brain |
Q58070840 | New tools to enlighten brain function |
Q53996935 | Optogenetics: controlling cell function with light |
Q58070755 | Perfecting ChR2 |
Q35180108 | Prospective identification and purification of quiescent adult neural stem cells from their in vivo niche |
Q44176530 | Protein GPS. |
Q58070855 | Reading cells from within |
Q58070761 | Rewiring cellular networks |
Q58070864 | Searching for mismatches in a vast genomic landscape |
Q58070583 | Sensors and probes: Magnetic signaling control |
Q58070620 | Shaping the waves |
Q37159101 | Simultaneous prospective purification of adult subventricular zone neural stem cells and their progeny. |
Q58070872 | Species collage |
Q58070767 | Speeding up RNAi |
Q41931221 | Stem cells: The developing human brain--modeled in a dish |
Q58070682 | Tagging newborn proteins: version 2.0 |
Q58070644 | The genetic essence of our brains |
Q58070690 | The survival of the fittest |
Q58070649 | Together we shine |
Q58070880 | Tracking infection |
Q54377648 | Unfolding to force. |
Q58070783 | Unraveling synapse diversity |
Q58070598 | Volumetric imaging in a snapshot |
Q42243673 | miR-124 regulates adult neurogenesis in the subventricular zone stem cell niche |
Search more.