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Items: 1 to 20 of 64

1.

Regional differences in gene expression and promoter usage in aged human brains.

Pardo LM, Rizzu P, Francescatto M, Vitezic M, Leday GG, Sanchez JS, Khamis A, Takahashi H, van de Berg WD, Medvedeva YA, van de Wiel MA, Daub CO, Carninci P, Heutink P.

Neurobiol Aging. 2013 Jul;34(7):1825-36. doi: 10.1016/j.neurobiolaging.2013.01.005. Epub 2013 Feb 19.

2.

Variations in differential gene expression patterns across multiple brain regions in schizophrenia.

Katsel P, Davis KL, Gorman JM, Haroutunian V.

Schizophr Res. 2005 Sep 15;77(2-3):241-52.

PMID:
15923110
3.

Pairwise comparisons of ten porcine tissues identify differential transcriptional regulation at the gene, isoform, promoter and transcription start site level.

Farajzadeh L, Hornshøj H, Momeni J, Thomsen B, Larsen K, Hedegaard J, Bendixen C, Madsen LB.

Biochem Biophys Res Commun. 2013 Aug 23;438(2):346-52. doi: 10.1016/j.bbrc.2013.07.074. Epub 2013 Jul 27.

4.

Quantitative gene expression profiling of mouse brain regions reveals differential transcripts conserved in human and affected in disease models.

Brochier C, Gaillard MC, Diguet E, Caudy N, Dossat C, Ségurens B, Wincker P, Roze E, Caboche J, Hantraye P, Brouillet E, Elalouf JM, de Chaldée M.

Physiol Genomics. 2008 Apr 22;33(2):170-9. doi: 10.1152/physiolgenomics.00125.2007. Epub 2008 Feb 5.

5.

Whole transcriptome sequencing reveals gene expression and splicing differences in brain regions affected by Alzheimer's disease.

Twine NA, Janitz K, Wilkins MR, Janitz M.

PLoS One. 2011 Jan 21;6(1):e16266. doi: 10.1371/journal.pone.0016266.

6.

Distinct transcriptome expression of the temporal cortex of the primate Microcebus murinus during brain aging versus Alzheimer's disease-like pathology.

Abdel Rassoul R, Alves S, Pantesco V, De Vos J, Michel B, Perret M, Mestre-Francés N, Verdier JM, Devau G.

PLoS One. 2010 Sep 16;5(9). pii: e12770. doi: 10.1371/journal.pone.0012770.

7.

Amyloid precursor protein gene isoforms in Alzheimer's disease and other neurodegenerative disorders.

Panegyres PK, Zafiris-Toufexis K, Kakulas BA.

J Neurol Sci. 2000 Feb 15;173(2):81-92.

PMID:
10675649
8.

[Morphological and quantatitive capillary changes in aging human brain].

Wang LN, Xu D, Gui QP, Zhu MW, Zhang HH, Hu YZ.

Zhongguo Yi Xue Ke Xue Yuan Xue Bao. 2004 Apr;26(2):104-7. Chinese.

PMID:
15171542
9.

Analysis of the human GDNF gene reveals an inducible promoter, three exons, a triplet repeat within the 3'-UTR and alternative splice products.

Grimm L, Holinski-Feder E, Teodoridis J, Scheffer B, Schindelhauer D, Meitinger T, Ueffing M.

Hum Mol Genet. 1998 Nov;7(12):1873-86.

PMID:
9811930
10.

Subcortical and temporal structures in affective disorder and schizophrenia: a magnetic resonance imaging study.

Swayze VW 2nd, Andreasen NC, Alliger RJ, Yuh WT, Ehrhardt JC.

Biol Psychiatry. 1992 Feb 1;31(3):221-40.

PMID:
1547297
11.
12.

TrkB gene expression and DNA methylation state in Wernicke area does not associate with suicidal behavior.

Keller S, Sarchiapone M, Zarrilli F, Tomaiuolo R, Carli V, Angrisano T, Videtic A, Amato F, Pero R, di Giannantonio M, Iosue M, Lembo F, Castaldo G, Chiariotti L.

J Affect Disord. 2011 Dec;135(1-3):400-4. doi: 10.1016/j.jad.2011.07.003. Epub 2011 Jul 29.

PMID:
21802740
13.

Microscopic analysis of the different regions of three Alzheimer brains aged 93, 94, and 104 years old.

Zhu Y, Xu J, Kwong WH, Wai SM, Lam WP, Yew DT.

Int J Neurosci. 2007 Oct;117(10):1403-13.

PMID:
17729152
14.

Sex differences in human brain morphometry and metabolism: an in vivo quantitative magnetic resonance imaging and positron emission tomography study on the effect of aging.

Murphy DG, DeCarli C, McIntosh AR, Daly E, Mentis MJ, Pietrini P, Szczepanik J, Schapiro MB, Grady CL, Horwitz B, Rapoport SI.

Arch Gen Psychiatry. 1996 Jul;53(7):585-94.

PMID:
8660125
15.

Novel target genes of the Wnt pathway and statistical insights into Wnt target promoter regulation.

Ziegler S, Röhrs S, Tickenbrock L, Möröy T, Klein-Hitpass L, Vetter IR, Müller O.

FEBS J. 2005 Apr;272(7):1600-15.

17.

APOE-epsilon4 is associated with less frontal and more medial temporal lobe atrophy in AD.

Geroldi C, Pihlajamäki M, Laakso MP, DeCarli C, Beltramello A, Bianchetti A, Soininen H, Trabucchi M, Frisoni GB.

Neurology. 1999 Nov 10;53(8):1825-32.

PMID:
10563634
18.

Cap analysis gene expression for high-throughput analysis of transcriptional starting point and identification of promoter usage.

Shiraki T, Kondo S, Katayama S, Waki K, Kasukawa T, Kawaji H, Kodzius R, Watahiki A, Nakamura M, Arakawa T, Fukuda S, Sasaki D, Podhajska A, Harbers M, Kawai J, Carninci P, Hayashizaki Y.

Proc Natl Acad Sci U S A. 2003 Dec 23;100(26):15776-81. Epub 2003 Dec 8.

19.

GABAA receptor promoter hypermethylation in suicide brain: implications for the involvement of epigenetic processes.

Poulter MO, Du L, Weaver IC, Palkovits M, Faludi G, Merali Z, Szyf M, Anisman H.

Biol Psychiatry. 2008 Oct 15;64(8):645-52. doi: 10.1016/j.biopsych.2008.05.028. Epub 2008 Jul 18.

PMID:
18639864
20.

Glutamate receptor subunits expression in memory-associated brain structures: regional variations and effects of aging.

Liu P, Smith PF, Darlington CL.

Synapse. 2008 Nov;62(11):834-41. doi: 10.1002/syn.20563.

PMID:
18720514

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