Catherina Becker

Q: What Schools Are Affiliated With Catherina Becker

Catherina Becker is affiliated with the following schools: University of Oxford, University of Edinburgh, Stanford University, TU Dresden, University of Bremen

Catherina Becker's AcademicInfluence.com Rankings

Catherina Becker

Biology

#14927

World Rank

#18807

Historical Rank

Molecular Biology

#2672

World Rank

#2713

Historical Rank

biology Degrees

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Biology

Catherina Becker's Degrees

PhD Biology University of Oxford
Bachelors Biotechnology University of Oxford

Why Is Catherina Becker Influential?

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According to Wikipedia, Catherina Gwynne Becker is an Alexander von Humboldt Professor at TU Dresden, and was formerly Professor of Neural Development and Regeneration at the University of Edinburgh. Early life and education Catherina Becker was born in Marburg, Germany in 1964. She was educated at the in Bremen, before going on to study at the University of Bremen where she obtained an MSci of Biology and her PhD in 1993, investigating visual system development and regeneration in frogs and salamanders under the supervision of Gerhard Roth. She then trained as post-doctorate at the Swiss Federal Institute of Technology in Zürich, the Department Dev Cell Biol funded by an EMBO long-term fellowship, at the University of California, Irvine in USA and the Centre for Molecular Neurobiology Hamburg , Germany where she took a position of group leader in 2000 and finished her ‚Habilitation‘ in neurobiology in 2012.

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Catherina Becker's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

The polysialic acid modification of the neural cell adhesion molecule is involved in spatial learning and hippocampal long‐term potentiation (1996) (324)
Cellular localization of tyrosine hydroxylase by immunohistochemistry. (1975) (262)
Axonal regrowth after spinal cord transection in adult zebrafish. (1997) (253)
Motor Neuron Regeneration in Adult Zebrafish (2008) (239)
Adult zebrafish as a model for successful central nervous system regeneration. (2008) (181)
L1.1 Is Involved in Spinal Cord Regeneration in Adult Zebrafish (2004) (172)
Dysregulation of ubiquitin homeostasis and β-catenin signaling promote spinal muscular atrophy. (2014) (165)
Systemic restoration of UBA1 ameliorates disease in spinal muscular atrophy (2016) (155)
Axonal regrowth after spinal cord transection in adult zebrafish (1997) (153)
Dynamic control of proinflammatory cytokines Il-1β and Tnf-α by macrophages in zebrafish spinal cord regeneration (2018) (148)
Sonic Hedgehog Is a Polarized Signal for Motor Neuron Regeneration in Adult Zebrafish (2009) (117)
Dopamine from the brain promotes spinal motor neuron generation during development and adult regeneration. (2013) (115)
Regenerating descending axons preferentially reroute to the gray matter in the presence of a general macrophage/microglial reaction caudal to a spinal transection in adult zebrafish (2001) (110)
Wnt signaling controls pro-regenerative Collagen XII in functional spinal cord regeneration in zebrafish (2017) (106)
Repellent Guidance of Regenerating Optic Axons by Chondroitin Sulfate Glycosaminoglycans in Zebrafish (2002) (96)
Notch Signaling Controls Generation of Motor Neurons in the Lesioned Spinal Cord of Adult Zebrafish (2012) (94)
Spinal motor neurons are regenerated after mechanical lesion and genetic ablation in larval zebrafish (2016) (88)
Expression of protein zero is increased in lesioned axon pathways in the central nervous system of adult zebrafish (2003) (87)
Claudin k is specifically expressed in cells that form myelin during development of the nervous system and regeneration of the optic nerve in adult zebrafish (2012) (83)
Axonal regeneration in zebrafish (2014) (79)
Tenascin‐R inhibits regrowth of optic fibers in vitro and persists in the optic nerve of mice after injury (2000) (78)
Plasticity of tyrosine hydroxylase and serotonergic systems in the regenerating spinal cord of adult zebrafish (2012) (76)
Growth and pathfinding of regenerating axons in the optic projection of adult fish (2007) (75)
Neuronal regeneration from ependymo-radial glial cells: cook, little pot, cook! (2015) (74)
Therapeutic strategies for spinal muscular atrophy: SMN and beyond (2017) (73)
Gradients of ephrin‐A2 and ephrin‐A5b mRNA during retinotopic regeneration of the optic projection in adult zebrafish (2000) (68)
Bioenergetic status modulates motor neuron vulnerability and pathogenesis in a zebrafish model of spinal muscular atrophy (2017) (66)
Chondrolectin affects cell survival and neuronal outgrowth in in vitro and in vivo models of spinal muscular atrophy. (2014) (65)
Neuropilin‐1a is involved in trunk motor axon outgrowth in embryonic zebrafish (2005) (60)
Serotonin Promotes Development and Regeneration of Spinal Motor Neurons in Zebrafish (2015) (59)
Tenascin-R as a repellent guidance molecule for newly growing and regenerating optic axons in adult zebrafish (2004) (58)
Differences in the regenerative response of neuronal cell populations and indications for plasticity in intraspinal neurons after spinal cord transection in adult zebrafish (2005) (58)
Lesion‐induced generation of interneuron cell types in specific dorsoventral domains in the spinal cord of adult zebrafish (2012) (55)
Tenascin-R as a Repellent Guidance Molecule for Developing Optic Axons in Zebrafish (2003) (52)
The spinal ependymal zone as a source of endogenous repair cells across vertebrates (2018) (52)
Proteasomal selection of multiprotein complexes recruited by LIM homeodomain transcription factors (2007) (50)
Multiple functions of LIM domain-binding CLIM/NLI/Ldb cofactors during zebrafish development (2002) (50)
Contactin1a expression is associated with oligodendrocyte differentiation and axonal regeneration in the central nervous system of zebrafish (2007) (49)
Zebrafish regenerate full thickness optic nerve myelin after demyelination, but this fails with increasing age (2014) (49)
Tenascin‐C is involved in motor axon outgrowth in the trunk of developing zebrafish (2005) (46)
Semaphorin3D Regulates Axon–Axon Interactions by Modulating Levels of L1 Cell Adhesion Molecule (2007) (46)
PlexinA3 Restricts Spinal Exit Points and Branching of Trunk Motor Nerves in Embryonic Zebrafish (2007) (45)
Expression and mapping of duplicate neuropilin-1 and neuropilin-2 genes in developing zebrafish. (2004) (44)
Tenascin-R Inhibits the Growth of Optic Fibers In Vitro But Is Rapidly Eliminated during Nerve Regeneration in the Salamander Pleurodeles waltl (1999) (42)
Developmentally Regulated Impediments to Skin Reinnervation by Injured Peripheral Sensory Axon Terminals (2009) (42)
Reduce, reuse, recycle - Developmental signals in spinal cord regeneration. (2017) (34)
Antibody to the HNK-1 glycoepitope affects fasciculation and axonal pathfinding in the developing posterior lateral line nerve of embryonic zebrafish (2001) (32)
Amphibian‐specific regulation of polysialic acid and the neural cell adhesion molecule in development and regeneration of the retinotectal system of the salamander Pleurodeles waltl (1993) (30)
Regeneration of Dopaminergic Neurons in Adult Zebrafish Depends on Immune System Activation and Differs for Distinct Populations (2018) (28)
Model Organisms in Spinal Cord Regeneration (2006) (27)
Expression of Polysialylated NCAM but Not L1 orN-Cadherin by Regenerating Adult Mouse Optic Fibersin Vitro (1999) (26)
Analysis of the astray/robo2 Zebrafish Mutant Reveals that Degenerating Tracts Do Not Provide Strong Guidance Cues for Regenerating Optic Axons (2010) (26)
Distribution of glycinergic neurons in the brain of glycine transporter‐2 transgenic Tg(glyt2:Gfp) adult zebrafish: Relationship to brain–spinal descending systems (2013) (23)
A synthetic cell permeable antioxidant protects neurons against acute oxidative stress (2017) (22)
CRISPR gRNA phenotypic screening in zebrafish reveals pro-regenerative genes in spinal cord injury (2021) (22)
Chondrolectin Mediates Growth Cone Interactions of Motor Axons with an Intermediate Target (2012) (22)
Expression of collapsin response mediator proteins in the nervous system of embryonic zebrafish. (2005) (21)
Zebrafish as a Model System for Successful Spinal Cord Regeneration (2007) (19)
Increased NCAM-180 Immunoreactivity and Maintenance of L1 Immunoreactivity in Injured Optic Fibers of Adult Mice (2001) (19)
Double labeling of neurons by retrograde axonal tracing and non-radioactive in situ hybridization in the CNS of adult zebrafish. (2003) (18)
Neural development and regeneration: it's all in your spinal cord (2015) (16)
A unique macrophage subpopulation signals directly to progenitor cells to promote regenerative neurogenesis in the zebrafish spinal cord. (2021) (16)
Immunohistological localization of tenascin‐c in the developing and regenerating retinotectal system of two amphibian species (1995) (14)
Integrin antagonists affect growth and pathfinding of ventral motor nerves in the trunk of embryonic zebrafish (2003) (13)
Expression of the zebrafish recognition molecule F3/F11/contactin in a subset of differentiating neurons is regulated by cofactors associated with LIM domains (2002) (12)
Systemic restoration of UBA 1 ameliorates disease in spinal muscular atrophy (2016) (12)
Explorer Dysregulation of ubiquitin homeostasis and beta-catenin signaling promote spinal muscular atrophy (2016) (11)
Interaction of Axonal Chondrolectin with Collagen XIXa1 Is Necessary for Precise Neuromuscular Junction Formation. (2019) (10)
Explorer L 1 . 1 is involved in spinal cord regeneration in adult zebrafish (2004) (9)
Restoration of anatomical continuity after spinal cord transection depends on Wnt/β-catenin signaling in larval zebrafish (2017) (8)
Dynamic cell interactions allow spinal cord regeneration in zebrafish (2020) (8)
Truly‐Biocompatible Gold Catalysis Enables Vivo‐Orthogonal Intra‐CNS Release of Anxiolytics (2021) (8)
Cell migration along glial fibers in dissociated cell culture of the frog optic tectum (1991) (8)
Automated in vivo drug screen in zebrafish identifies synapse-stabilising drugs with relevance to spinal muscular atrophy (2021) (8)
Neural circuit reorganisation after spinal cord injury in zebrafish. (2020) (7)
Acknowledgment of Reviewers (2004) (7)
SSDP cofactors regulate neural patterning and differentiation of specific axonal projections. (2011) (7)
A Unique Macrophage Subpopulation Signals Directly to Progenitor Cells to Promote Regenerative Neurogenesis in the Zebrafish Spinal Cord (2020) (7)
Polysialic acid expression in the salamander retina is inducible by thyroxine. (1994) (6)
Regenerative neurogenesis: the integration of developmental, physiological and immune signals (2022) (6)
Dynamic control of proinflammatory cytokines Il-1β and Tnf-α by macrophages is necessary for functional spinal cord regeneration in zebrafish (2018) (5)
Comparing protein stabilities during zebrafish embryogenesis. (2003) (4)
Distribution of glycinergic neurons in the brain of glycine transporter-2 Tg(glyt2:gfp) transgenic adult zebrafish (2013) (4)
Distribution of NCAM-180 and polysialic acid in the developing tectum mesencephali of the frog Discoglossus pictus and the salamander Pleurodeles waltl (1993) (3)
Interaction of Axonal Chondrolectin with Collagen XIXa1 Is Necessary for Precise Neuromuscular Junction Formation. (2020) (3)
Developmentally regulated local inhibition and loss of plasticity hinder reinnervation of the skin by injured peripheral sensory axons (2009) (2)
Targeting phosphoglycerate kinase 1 with terazosin improves motor neuron phenotypes in multiple models of amyotrophic lateral sclerosis (2022) (2)
An exception to the rule? Regeneration of the injured spinal cord in the spiny mouse. (2022) (2)
Controlled Semi-Automated Lased-Induced Injuries for Studying Spinal Cord Regeneration in Zebrafish Larvae (2021) (1)
Erratum: Proteasomal selection of multiprotein complexes recruited by LIM homeodomain transcription factors (Proceedings of the National Academy of Sciences of the United States of America (2007) 104, 38, (15000-15005) doi: 10.1073/pnas.0703738104) (2007) (1)
Phenotypic screening using synthetic CRISPR gRNAs reveals pro-regenerative genes in spinal cord injury (2020) (1)
Expression of the zebrafish recognition molecule F3/F11/contactin in a subset of differentiating neurons is regulated by cofactors associated with LIM domains. (2002) (1)
Polysialic Acid (PSA) Associated with the Neural Cell Adhesion Molecule (N-CAM) May Play a Role in Spatial Learning and LTP in Rats (1997) (1)
Erratum: Interaction of Axonal Chondrolectin with Collagen XIXa1 Is Necessary for Precise Neuromuscular Junction Formation (Cell Reports (2019) 29(5) (1082–1098.e10), (S2211124719312215), (10.1016/j.celrep.2019.09.033)) (2020) (0)
A synthetic cell permeable antioxidant protects neurons against acute oxidative stress (2017) (0)
Editorial overview: Regeneration (2020) (0)
Drug screening in zebrafish larvae reveals inflammation-related modulators of secondary damage after spinal cord injury in mice (2023) (0)
Zebrafish regenerate full thickness optic nerve myelin after demyelination, but this fails with increasing age (2014) (0)
Rapid Testing of Gene Function in Axonal Regeneration After Spinal Cord Injury Using Larval Zebrafish. (2023) (0)
Explorer Motor neuron regeneration in adult zebrafish (2016) (0)
CLAUDIN K IS SPECIFICALLY EXPRESSED IN MYELIN OF DEVELOPING AND ADULT ZEBRAFISH (2011) (0)
Author index (2001) (0)
A novel mitochondrial enriched antioxidant protects neurons against acute oxidative stress (2017) (0)
Successful regeneration of the larval zebrafish spinal cord (2015) (0)
Therapeutic strategies for spinal muscular atrophy: looking beyond the SMN gene (2017) (0)
Acknowledgment of Reviewers 2018 (2018) (0)
Coaxing stem cells to repair the spinal cord (2020) (0)
Edinburgh Dynamic control of proinflammatory cytokines Il-1 and Tnf- by macrophages in zebrafish spinal cord regeneration (2018) (0)
DEV121053 811..816 (2015) (0)
Dynamic control of proinflammatory cytokines Il-1β and Tnf-α by macrophages in zebrafish spinal cord regeneration (2018) (0)
Serotonin promotes motor neuron development and adult regeneration in zebrafish (2015) (0)
Light microscopic localization of actomyosin and tropomyosin in tissues by immunoperoxidase technique following fixation in dimethylsuberimidate and embedding in polyethylene glycol. (1977) (0)
Edinburgh Research Explorer Dysregulation of ubiquitin homeostasis and -catenin signaling promote spinal muscular atrophy (2014) (0)
Explorer Analysis of the astray / robo 2 Zebrafish Mutant Reveals that Degenerating Tracts Do Not Provide Strong Guidance Cues for Regenerating Optic Axons (2017) (0)
Wnt signaling controls pro-regenerative Collagen XII in functional spinal cord regeneration in zebrafish (2017) (0)
INVESTIGATION OF DE- AND REMYELINATION OF TOXIN-INDUCED LESIONS IN THE ADULT ZEBRAFISH OPTIC NERVE (2013) (0)
Brief Communications Motor Neuron Regeneration in Adult Zebrafish (2008) (0)
Comprar Model Organisms in Spinal Cord Regeneration | Catherina G. Becker | 9783527315048 | Wiley (2007) (0)
Explorer Semaphorin 3 D regulates axon axon interactions by modulating levels of L 1 cell adhesion molecule (2016) (0)
Contents continued (2002) (0)
19-P044 Neuronal circuit in the spinal cord of zebrafish before and after lesion (2009) (0)

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What Schools Are Affiliated With Catherina Becker?

Catherina Becker is affiliated with the following schools:

Catherina Becker's Academic­Influence.com Rankings