A citation-based method for searching scientific literature

D H Geschwind, S Perlman, K P Figueroa, J Karrim, R W Baloh, S M Pulst. Neurology 1997
Times Cited: 107







List of co-cited articles
1114 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Autosomal dominant cerebellar ataxia (SCA6) associated with small polyglutamine expansions in the alpha 1A-voltage-dependent calcium channel.
O Zhuchenko, J Bailey, P Bonnen, T Ashizawa, D W Stockton, C Amos, W B Dobyns, S H Subramony, H Y Zoghbi, C C Lee. Nat Genet 1997
978
80

Spinocerebellar ataxia type 6. Molecular and clinical features of 35 Japanese patients including one homozygous for the CAG repeat expansion.
R Matsumura, N Futamura, Y Fujimoto, S Yanagimoto, H Horikawa, A Suzumura, T Takayanagi. Neurology 1997
102
43

Familial hemiplegic migraine and episodic ataxia type-2 are caused by mutations in the Ca2+ channel gene CACNL1A4.
R A Ophoff, G M Terwindt, M N Vergouwe, R van Eijk, P J Oefner, S M Hoffman, J E Lamerdin, H W Mohrenweiser, D E Bulman, M Ferrari,[...]. Cell 1996
43

Spinocerebellar ataxia type 6: gaze-evoked and vertical nystagmus, Purkinje cell degeneration, and variable age of onset.
C M Gomez, R M Thompson, J T Gammack, S L Perlman, W B Dobyns, C L Truwit, D S Zee, H B Clark, J H Anderson. Ann Neurol 1997
176
41

Spinocerebellar ataxia type 6: genotype and phenotype in German kindreds.
L Schöls, R Krüger, G Amoiridis, H Przuntek, J T Epplen, O Riess. J Neurol Neurosurg Psychiatry 1998
105
40

Episodic ataxia type 2 (EA2) and spinocerebellar ataxia type 6 (SCA6) due to CAG repeat expansion in the CACNA1A gene on chromosome 19p.
C Jodice, E Mantuano, L Veneziano, F Trettel, G Sabbadini, L Calandriello, A Francia, M Spadaro, F Pierelli, F Salvi,[...]. Hum Mol Genet 1997
177
39

Spinocerebellar ataxia type 6: CAG repeat expansion in alpha1A voltage-dependent calcium channel gene and clinical variations in Japanese population.
T Ikeuchi, H Takano, R Koide, Y Horikawa, Y Honma, Y Onishi, S Igarashi, H Tanaka, N Nakao, K Sahashi,[...]. Ann Neurol 1997
89
43

Clinical and molecular features of spinocerebellar ataxia type 6.
G Stevanin, A Dürr, G David, O Didierjean, G Cancel, S Rivaud, A Tourbah, J M Warter, Y Agid, A Brice. Neurology 1997
78
46

Molecular features of the CAG repeats of spinocerebellar ataxia 6 (SCA6).
Z Matsuyama, H Kawakami, H Maruyama, Y Izumi, O Komure, F Udaka, M Kameyama, T Nishio, Y Kuroda, M Nishimura,[...]. Hum Mol Genet 1997
103
31

Moderate expansion of a normally biallelic trinucleotide repeat in spinocerebellar ataxia type 2.
S M Pulst, A Nechiporuk, T Nechiporuk, S Gispert, X N Chen, I Lopes-Cendes, S Pearlman, S Starkman, G Orozco-Diaz, A Lunkes,[...]. Nat Genet 1996
686
27

Cloning of the SCA7 gene reveals a highly unstable CAG repeat expansion.
G David, N Abbas, G Stevanin, A Dürr, G Yvert, G Cancel, C Weber, G Imbert, F Saudou, E Antoniou,[...]. Nat Genet 1997
453
24

CAG expansions in a novel gene for Machado-Joseph disease at chromosome 14q32.1.
Y Kawaguchi, T Okamoto, M Taniwaki, M Aizawa, M Inoue, S Katayama, H Kawakami, S Nakamura, M Nishimura, I Akiguchi. Nat Genet 1994
24

Autosomal dominant cerebellar ataxia: phenotypic differences in genetically defined subtypes?
L Schöls, G Amoiridis, T Büttner, H Przuntek, J T Epplen, O Riess. Ann Neurol 1997
202
23

Identification of the spinocerebellar ataxia type 2 gene using a direct identification of repeat expansion and cloning technique, DIRECT.
K Sanpei, H Takano, S Igarashi, T Sato, M Oyake, H Sasaki, A Wakisaka, K Tashiro, Y Ishida, T Ikeuchi,[...]. Nat Genet 1996
463
23

Expansion of an unstable trinucleotide CAG repeat in spinocerebellar ataxia type 1.
H T Orr, M Y Chung, S Banfi, T J Kwiatkowski, A Servadio, A L Beaudet, A E McCall, L A Duvick, L P Ranum, H Y Zoghbi. Nat Genet 1993
22

An untranslated CTG expansion causes a novel form of spinocerebellar ataxia (SCA8)
M D Koob, M L Moseley, L J Schut, K A Benzow, T D Bird, J W Day, L P Ranum. Nat Genet 1999
367
22


Cloning of the gene for spinocerebellar ataxia 2 reveals a locus with high sensitivity to expanded CAG/glutamine repeats.
G Imbert, F Saudou, G Yvert, D Devys, Y Trottier, J M Garnier, C Weber, J L Mandel, G Cancel, N Abbas,[...]. Nat Genet 1996
520
21

Expansion of a novel CAG trinucleotide repeat in the 5' region of PPP2R2B is associated with SCA12.
S E Holmes, E E O'Hearn, M G McInnis, D A Gorelick-Feldman, J J Kleiderlein, C Callahan, N G Kwak, R G Ingersoll-Ashworth, M Sherr, A J Sumner,[...]. Nat Genet 1999
270
19


SCA6 mutation analysis in a large cohort of the Japanese patients with late-onset pure cerebellar ataxia.
I Yabe, H Sasaki, T Matsuura, A Takada, A Wakisaka, Y Suzuki, T Fukazawa, T Hamada, T Oda, A Ohnishi,[...]. J Neurol Sci 1998
42
40

Spinocerebellar ataxia 3 and Machado-Joseph disease: clinical, molecular, and neuropathological features.
A Dürr, G Stevanin, G Cancel, C Duyckaerts, N Abbas, O Didierjean, H Chneiweiss, A Benomar, O Lyon-Caen, J Julien,[...]. Ann Neurol 1996
267
17

Progressive ataxia due to a missense mutation in a calcium-channel gene.
Q Yue, J C Jen, S F Nelson, R W Baloh. Am J Hum Genet 1997
104
16

SCA6 is caused by moderate CAG expansion in the alpha1A-voltage-dependent calcium channel gene.
O Riess, L Schöls, H Bottger, D Nolte, A M Vieira-Saecker, C Schimming, F Kreuz, M Macek, A Krebsová, Macek M Sen,[...]. Hum Mol Genet 1997
75
21

Ataxin-1 nuclear localization and aggregation: role in polyglutamine-induced disease in SCA1 transgenic mice.
I A Klement, P J Skinner, M D Kaytor, H Yi, S M Hersch, H B Clark, H Y Zoghbi, H T Orr. Cell 1998
686
15



Abundant expression and cytoplasmic aggregations of [alpha]1A voltage-dependent calcium channel protein associated with neurodegeneration in spinocerebellar ataxia type 6.
K Ishikawa, H Fujigasaki, H Saegusa, K Ohwada, T Fujita, H Iwamoto, Y Komatsuzaki, S Toru, H Toriyama, M Watanabe,[...]. Hum Mol Genet 1999
115
15

Unstable expansion of CAG repeat in hereditary dentatorubral-pallidoluysian atrophy (DRPLA).
R Koide, T Ikeuchi, O Onodera, H Tanaka, S Igarashi, K Endo, H Takahashi, R Kondo, A Ishikawa, T Hayashi. Nat Genet 1994
713
15

Incidence of dominant spinocerebellar and Friedreich triplet repeats among 361 ataxia families.
M L Moseley, K A Benzow, L J Schut, T D Bird, C M Gomez, P E Barkhaus, K A Blindauer, M Labuda, M Pandolfo, M D Koob,[...]. Neurology 1998
125
15

Neuropathological and molecular studies of spinocerebellar ataxia type 6 (SCA6).
H Sasaki, H Kojima, I Yabe, K Tashiro, T Hamada, H Sawa, H Hiraga, K Nagashima. Acta Neuropathol 1998
58
25

Spinocerebellar ataxia type 6 with positional vertigo and acetazolamide responsive episodic ataxia.
J C Jen, Q Yue, J Karrim, S F Nelson, R W Baloh. J Neurol Neurosurg Psychiatry 1998
47
29

A neurological disease caused by an expanded CAG trinucleotide repeat in the TATA-binding protein gene: a new polyglutamine disease?
R Koide, S Kobayashi, T Shimohata, T Ikeuchi, M Maruyama, M Saito, M Yamada, H Takahashi, S Tsuji. Hum Mol Genet 1999
227
14

A Japanese family with spinocerebellar ataxia type 6 which includes three individuals homozygous for an expanded CAG repeat in the SCA6/CACNL1A4 gene.
Y Takiyama, K Sakoe, M Namekawa, M Soutome, E Esumi, T Ogawa, K Ishikawa, H Mizusawa, I Nakano, M Nishizawa. J Neurol Sci 1998
23
56

Episodic ataxia/myokymia syndrome is associated with point mutations in the human potassium channel gene, KCNA1.
D L Browne, S T Gancher, J G Nutt, E R Brunt, E A Smith, P Kramer, M Litt. Nat Genet 1994
451
13

Autosomal dominant spinocerebellar ataxia with sensory axonal neuropathy (SCA4): clinical description and genetic localization to chromosome 16q22.1.
K Flanigan, K Gardner, K Alderson, B Galster, B Otterud, M F Leppert, C Kaplan, L J Ptácek. Am J Hum Genet 1996
127
13

Large expansion of the ATTCT pentanucleotide repeat in spinocerebellar ataxia type 10.
T Matsuura, T Yamagata, D L Burgess, A Rasmussen, R P Grewal, K Watase, M Khajavi, A E McCall, C F Davis, L Zu,[...]. Nat Genet 2000
297
13

SCA17, a novel autosomal dominant cerebellar ataxia caused by an expanded polyglutamine in TATA-binding protein.
K Nakamura, S Y Jeong, T Uchihara, M Anno, K Nagashima, T Nagashima, S Ikeda, S Tsuji, I Kanazawa. Hum Mol Genet 2001
382
13

Autosomal dominant cerebellar ataxias: clinical features, genetics, and pathogenesis.
Ludger Schöls, Peter Bauer, Thorsten Schmidt, Thorsten Schulte, Olaf Riess. Lancet Neurol 2004
596
13

Intranuclear inclusions of expanded polyglutamine protein in spinocerebellar ataxia type 3.
H L Paulson, M K Perez, Y Trottier, J Q Trojanowski, S H Subramony, S S Das, P Vig, J L Mandel, K H Fischbeck, R N Pittman. Neuron 1997
524
12


Molecular and clinical study of 18 families with ADCA type II: evidence for genetic heterogeneity and de novo mutation.
P Giunti, G Stevanin, P F Worth, G David, A Brice, N W Wood. Am J Hum Genet 1999
59
20


Spinocerebellar ataxias in Spanish patients: genetic analysis of familial and sporadic cases. The Ataxia Study Group.
M A Pujana, J Corral, M Gratacòs, O Combarros, J Berciano, D Genís, I Banchs, X Estivill, V Volpini. Hum Genet 1999
89
13


High prevalence of CACNA1A truncations and broader clinical spectrum in episodic ataxia type 2.
C Denier, A Ducros, K Vahedi, A Joutel, P Thierry, A Ritz, G Castelnovo, T Deonna, P Gérard, J L Devoize,[...]. Neurology 1999
118
12

Close associations between prevalences of dominantly inherited spinocerebellar ataxias with CAG-repeat expansions and frequencies of large normal CAG alleles in Japanese and Caucasian populations.
H Takano, G Cancel, T Ikeuchi, D Lorenzetti, R Mawad, G Stevanin, O Didierjean, A Dürr, M Oyake, T Shimohata,[...]. Am J Hum Genet 1998
126
12

Clinical and molecular genetic study in seven Japanese families with spinocerebellar ataxia type 6.
Y Nagai, T Azuma, M Funauchi, M Fujita, M Umi, M Hirano, T Matsubara, S Ueno. J Neurol Sci 1998
23
47


Mapping of a new autosomal dominant spinocerebellar ataxia to chromosome 22.
L Zu, K P Figueroa, R Grewal, S M Pulst. Am J Hum Genet 1999
73
15


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.