Aarnio Vuokko, Paananen Jussi, Wong Garry
Department of Neuroscience, A. I. Virtanen Institute, Finland.
J Mol Neurosci. 2005;27(3):261-8. doi: 10.1385/JMN:27:3:261.
The application of microarray technology to basic and applied fields of science has been progressing rapidly and broadly since its initial description. The field of neuroscience stands to benefit particularly, as nervous tissue is the most transcriptionally active system within most biological organisms. Moreover, large numbers of cell and animal models have been created that mimic many biochemical and behavioral features of neurological states and diseases. In the present study, data on study designs, tissue sources, technology platforms, bioinformatic tools, and results obtained from 448 published microarray studies were collected. The data were then summarized to determine overall usage statistics of microarrays. Future directions and applications for microarrays in the neurosciences were then inferred from the data analyzed.
自微阵列技术首次被描述以来,其在基础科学和应用科学领域的应用一直在迅速而广泛地发展。神经科学领域尤其有望从中受益,因为神经组织是大多数生物体内转录活性最高的系统。此外,已经创建了大量模拟神经状态和疾病的许多生化和行为特征的细胞和动物模型。在本研究中,收集了来自448项已发表的微阵列研究的研究设计、组织来源、技术平台、生物信息学工具和结果的数据。然后对数据进行总结,以确定微阵列的总体使用统计情况。随后从分析的数据中推断出微阵列在神经科学中的未来方向和应用。