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» Authors » S M Dymecki

S M Dymecki

Explore the profile of S M Dymecki including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 18
Citations 1493
Followers 0
Related Specialties
Molecular Biology
Biology
Neurology
Top 10 Co-Authors
S V Desiderio
C I Rodriguez
R A Senft
P Zwollo
J E NIEDERHUBER
G Maddaloni
Y J Chang
J Kasper
M Kiledjian
J B Bolen
Published In
Neuroscience
J Biol Chem
Science
Proc Natl Acad Sci U S A
Development
Affiliations
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Recent Articles
1.
Adaptation to photoperiod via dynamic neurotransmitter segregation
Maddaloni G, Chang Y, Senft R, Dymecki S
Nature . 2024 Jul; 632(8023):147-156. PMID: 39020173
Changes in the amount of daylight (photoperiod) alter physiology and behaviour. Adaptive responses to seasonal photoperiods are vital to all organisms-dysregulation associates with disease, including affective disorders and metabolic syndromes....
2.
A brain circuit and neuronal mechanism for decoding and adapting to change in daylength
Maddaloni G, Chang Y, Senft R, Dymecki S
bioRxiv . 2023 Sep; PMID: 37745319
Changes in daylight amount (photoperiod) drive pronounced alterations in physiology and behaviour. Adaptive responses to seasonal photoperiods are vital to all organisms - dysregulation is associated with disease, from affective...
3.
Social Interactions Increase Activation of Vasopressin-Responsive Neurons in the Dorsal Raphe
Patel T, Caiola H, Mallari O, Blandino K, Goldenthal A, Dymecki S, et al.
Neuroscience . 2022 Jun; 495:25-46. PMID: 35654294
Social interactions play an important role in our daily lives and can profoundly impact our health for better and worse. To better understand the neural circuitry underlying social behavior, we...
4.
Zic1 levels regulate mossy fiber neuron position and axon laterality choice in the ventral brain stem
Dipietrantonio H, Dymecki S
Neuroscience . 2009 Mar; 162(3):560-73. PMID: 19303920
Pontine gray neurons of the brain stem are a major source of mossy fiber (MF) afferents to granule cells of the cerebellum. Achieving this connectivity involves an early regionalization of...
5.
Switching on lineage tracers using site-specific recombination
Dymecki S, Rodriguez C, Awatramani R
Methods Mol Biol . 2002 Jan; 185:309-34. PMID: 11768998
No abstract available.
6.
Widespread recombinase expression using FLPeR (flipper) mice
Farley F, Soriano P, Steffen L, Dymecki S
Genesis . 2000 Dec; 28(3-4):106-10. PMID: 11105051
As conditional genetic strategies advance, the need for multiple site-specific recombinase systems has emerged. To meet this need in part, we have targeted the constitutive ROSA26 locus to create a...
7.
Origin of the precerebellar system
Rodriguez C, Dymecki S
Neuron . 2000 Oct; 27(3):475-86. PMID: 11055431
The precerebellar system provides the principal input to the cerebellum and is essential for coordinated motor activity. Using a FLP recombinase-based fate mapping approach, we provide direct evidence in the...
8.
High-efficiency deleter mice show that FLPe is an alternative to Cre-loxP
Rodriguez C, Buchholz F, Galloway J, Sequerra R, Kasper J, Ayala R, et al.
Nat Genet . 2000 Jun; 25(2):139-40. PMID: 10835623
No abstract available.
9.
Combinatorial signaling through BMP receptor IB and GDF5: shaping of the distal mouse limb and the genetics of distal limb diversity
Baur S, Mai J, Dymecki S
Development . 2000 Jan; 127(3):605-19. PMID: 10631181
In this study, we use a mouse insertional mutant to delineate gene activities that shape the distal limb skeleton. A recessive mutation that results in brachydactyly was found in a...
10.
Using Flp-recombinase to characterize expansion of Wnt1-expressing neural progenitors in the mouse
Dymecki S, Tomasiewicz H
Dev Biol . 1998 Sep; 201(1):57-65. PMID: 9733573
Here we demonstrate how a Flp recombinase-based tagging system can be used to link temporally distinct developmental events in the mouse. By directly following Flp-mediated DNA rearrangements we have analyzed...