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1 e fundamental question posed by the field of neurogenetics.
2 age range and 102 patients with a variety of neurogenetic abnormalities.
3 ing technologies have begun to revolutionize neurogenetics, allowing the full spectrum of genetic var
4  functionality, providing a new paradigm for neurogenetic analyses of the mammalian retina in health
5                                              Neurogenetic and lesion studies have identified regions
6 ne of investigation, highly complementary to neurogenetic and molecular strategies, and holds promise
7 ent-of-origin-specific manner, can influence neurogenetic and psychiatric manifestations.
8 The availability of novel tools in molecular neurogenetics and increasingly sophisticated neuroimagin
9 nce, synaptogenesis and function, behavioral neurogenetics, and responses to neuronal injury.
10 yndrome (DS) is the most common example of a neurogenetic aneuploid disorder leading to mental retard
11 e challenges and highlight the benefits of a neurogenetics approach to understanding brain, behavior
12             Using an intermediate phenotypic neurogenetics approach, we assessed how stress and CRHR1
13  Cross-disorder comparison suggests that the neurogenetic architecture of schizophrenia-associated br
14  approaches to dissect conserved fundamental neurogenetic aspects of sleep.
15 ior, with implications for understanding the neurogenetic bases of WS as well as social anxiety.
16 ve useful for exposing and understanding the neurogenetic basis of normal and pathological human cogn
17 le approach that can be used to identify the neurogenetic basis of systems-level phenotypes.
18             Here, we deploy a combination of neurogenetic, behavioral, and physiological approaches t
19 rders, we analyzed patients in our pediatric neurogenetics clinic who underwent WES.
20 edigrees with bipolar disorder: the Clinical Neurogenetics (CNG) pedigrees (in which linkage to illne
21   Neurofibromatosis type 1 (NF1) is a common neurogenetic condition characterized by significant clin
22                              Here we examine neurogenetic contributions to individual differences in
23 diagnostic tool as well as a teaching aid at Neurogenetics courses held at several African universiti
24          Thus, common norepinephrine-related neurogenetic differences enhance the subjective vividnes
25 rate allele-specific targeting of a dominant neurogenetic disease gene and suggest the broad therapeu
26 itionally, we investigated mice that mimic a neurogenetic disease known as Angelman syndrome.
27 s are a major clinical feature of the common neurogenetic disease neurofibromatosis type 1 (NF1).
28 dels of Duchenne muscular dystrophy (DMD), a neurogenetic disease typically caused by frame-shifting
29            The effect on global lesions of a neurogenetic disease was tested in the mouse model of MP
30  we begin by selecting fragile X syndrome, a neurogenetic disease with cognitive-behavioral manifesta
31 nd are increasingly implicated as a cause of neurogenetic disease.
32 ould represent an important cause of complex neurogenetic disease.
33     To evaluate FAAH genes as candidates for neurogenetic diseases in humans and mice, we have mapped
34 sive, multifocal, or even global (e.g., many neurogenetic diseases).
35 ion is increasingly recognized as a cause of neurogenetic diseases.
36 nervous system manifestations of a number of neurogenetic diseases.
37    Chromosome 22q11.2 deletion syndrome is a neurogenetic disorder associated with high rates of schi
38                  Angelman syndrome (AS) is a neurogenetic disorder caused by deficiency of maternally
39                     Lesch-Nyhan disease is a neurogenetic disorder caused by deficiency of the enzyme
40                  Angelman syndrome (AS) is a neurogenetic disorder caused by deletion of the maternal
41        Tuberous sclerosis complex (TSC) is a neurogenetic disorder caused by loss-of-function mutatio
42      Fragile X syndrome (FXS) is an X-linked neurogenetic disorder characterized by a cognitive and b
43 ces in individuals with congenital amusia, a neurogenetic disorder characterized by abnormal pitch pe
44 sis type IV (MLIV) is an autosomal recessive neurogenetic disorder characterized by developmental abn
45  Angelman syndrome (AS) is a childhood-onset neurogenetic disorder characterized by functionally seve
46                    Turner syndrome (TS) is a neurogenetic disorder characterized by impaired spatial,
47                  Angelman syndrome (AS) is a neurogenetic disorder characterized by severe mental ret
48                  Alpers' syndrome is a fatal neurogenetic disorder first described more than 70 years
49   Neurofibromatosis type 1 (NF1) is a common neurogenetic disorder in which affected children and adu
50                      Fragile X syndrome is a neurogenetic disorder that is the most common known heri
51 study using heterogeneous ataxias as a model neurogenetic disorder to assess the introduction of next
52                        CS represents a novel neurogenetic disorder with general relevance to autism,
53 ntington's disease (HD) is a fatal, dominant neurogenetic disorder.
54 = 58), other neurodegenerative, vascular, or neurogenetic disorders (n = 266), and controls with no s
55                                 More than 12 neurogenetic disorders are caused by unstable expansions
56 an syndrome (AS) are two clinically distinct neurogenetic disorders arising from a loss of expression
57 II subunits or tRNA processing factors cause neurogenetic disorders in humans, such as hypomyelinatin
58  DNA triplet repeat sequences (TRS) found in neurogenetic disorders may be due to abnormal DNA replic
59 a-hydroxybutyric aciduria) is one of the few neurogenetic disorders of GABA metabolism, and one in wh
60 rrier and target brain cells when applied to neurogenetic disorders such as ataxia-telangiecatasia (A
61 g to 128 mostly consanguineous families with neurogenetic disorders that often included brain malform
62                                              Neurogenetic disorders typically affect cells throughout
63 esis and provides a novel example of allelic neurogenetic disorders with differing gene expression pr
64 araplegia is a highly heterogeneous group of neurogenetic disorders with pure and complicated clinica
65 e of combinatorial ASOs for the treatment of neurogenetic disorders.
66 nervous system and are among the most common neurogenetic disorders.
67  they may contribute to our understanding of neurogenetic disorders.
68 lternative stem cell source for the study of neurogenetic disorders.
69 ntial of (RXRRBR)(2)XB-AMOs in A-T and other neurogenetic disorders.
70 rgic phenotype will contribute to the future neurogenetic dissection of information processing circui
71  tau) locus is one of the most remarkable in neurogenetics due not only to its involvement in multipl
72 ed the remarkable similarities between early neurogenetic events in vertebrates and invertebrates.
73 sent its use in a series of state-of-the-art neurogenetics experiments.
74 ovarian steroids in women, and may provide a neurogenetic framework for understanding neuropsychiatri
75 al to posteromedial gradient [the transverse neurogenetic gradient (TNG)].
76                            Advances in human neurogenetics have begun to shed light on the genomic ar
77                             Connectomics and neurogenetics have produced a surge in recent progress,
78    Our findings provide a new foundation for neurogenetic inquiries by revealing a robust and previou
79                       At any time in the 7 d neurogenetic interval, a given PVE cell must know what c
80 opments in neuroimaging, neuropathology, and neurogenetics, many developmental disorders of the midbr
81 ployed to study the effects of genes and how neurogenetics may affect future radiology research and p
82 tion in linkage disequilibrium may provide a neurogenetic mechanism for BIN1 while further validating
83 across a range of anxiety disorders, but the neurogenetic mechanisms driving interindividual differen
84                              We review these neurogenetic mechanisms in representatives of the differ
85                                 However, the neurogenetic mechanisms of these disorders are not well
86  genetic association but also of the broader neurogenetic mechanisms of variability in socioemotional
87 ts such as human temperament, the underlying neurogenetic mechanisms remain unclear.
88  ASD diagnostic criteria, but the underlying neurogenetic mechanisms remain unknown.
89                       Moreover, they uncover neurogenetic mechanisms that bridge different neurodevel
90 ional genomic routes for dissecting critical neurogenetic mechanisms.
91  of autism spectrum disorder and is a unique neurogenetic model for testing theories about the brain
92 and D. melanogaster (a saprophytic fly and a neurogenetic model organism).
93                               Zebrafish as a neurogenetic model system depends on the correct neuroan
94                  Williams syndrome (WS) is a neurogenetic-neurodevelopmental disorder characterized b
95 songbirds advantageous for investigating the neurogenetics of learned vocal communication--a complex
96  recent progress in studies of the molecular neurogenetics of sexual differentiation and behaviour ha
97           Understanding the neurobiology and neurogenetics of social cognition and behavior has impor
98                         Our results reveal a neurogenetic pathway mediating interindividual variabili
99 s in the heterotopia exhibit a "rim-to-core" neurogenetic pattern rather than the characteristic "ins
100 f cell division elapsed during the prolonged neurogenetic period of the monkey cortex, providing a ba
101 ession diminishes at the end of the cortical neurogenetic period, just before birth.
102                   To determine whether other neurogenetic populations respond to peripheral bFGF, we
103 l Shh and Wnt expression may distinguish the neurogenetic potential of these structures.
104 lular factors exert proliferative effects on neurogenetic precursors in vivo.
105                                     An early neurogenetic program allocates the progeny of NSCs eithe
106 rallel or downstream of atonal to modify the neurogenetic program.
107 llenge of clinical relevance, we examine how neurogenetics research can identify novel therapeutic ta
108 ases) and 1,986 unaffected controls from the NeuroGenetics Research Consortium (NGRC).
109 milial PD) and 1544 non-familial PD from the NeuroGenetics Research Consortium (NGRC); an additional
110 for 2000 PD cases and 1986 controls from the NeuroGenetics Research Consortium GWAS and sequenced a s
111                             In recent years, neurogenetics research had made some remarkable advances
112                                              Neurogenetics research has begun to advance our understa
113                  Despite these advancements, neurogenetics research is currently confronted by three
114              By addressing these challenges, neurogenetics research is poised to exponentially increa
115 y be applied more broadly within behavioural neurogenetics research.
116 whereas Fgfr1 cKO failed to mount a cortical neurogenetic response.
117  of environmental cues, coordinating diverse neurogenetic signals.
118 high-resolution transcriptional baseline for neurogenetic studies of normal and abnormal human brain
119 s pave the way for anatomical and functional neurogenetic studies of sensory processing in mosquitoes
120                                              Neurogenetic studies with Drosophila have identified dis
121 an be measured in an assay useful for future neurogenetic studies.
122              Neuroimaging data from the Duke Neurogenetics Study (N=312) provide evidence of this SNP
123 Through an ongoing parent protocol, the Duke Neurogenetics Study, we measured threat-related amygdala
124 9.65+/-1.24 years) participating in the Duke Neurogenetics Study.
125 niversity students participating in the Duke Neurogenetics Study.
126 sortium is examining this highly informative neurogenetic syndrome phenotypically and genomically.
127  Aside from features associated with risk of neurogenetic syndromes in general (e.g., cognitive impai
128                      Vestibular schwannomas, neurogenetic syndromes such as schwannomatosis and multi
129                                  We employed neurogenetic techniques to characterize neurons that inf
130  we define three challenges for the field of neurogenetics that we believe must be addressed to trans
131                                              Neurogenetic tools of Drosophila research allow unique a
132                Coupled with new and exciting neurogenetic tools, the near future promises an exciting
133 eeded to enable a complete dissection of the neurogenetic underpinnings of this universal fitness tra
134 er Primates evolved through lineage-specific neurogenetic variation.
135                      Some individuals have a neurogenetic vulnerability to developing strong facilita
136 Overview of Neuron's special review issue on neurogenetics, we reflect on progress made over the last
137       Functional neuroimaging and behavioral neurogenetics will permit in-vivo correlations and conse

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