细胞功能测定

Transcriptional feedback loops are at the core of the molecular clockworks. As single clock genes were cloned it was compelling to develop an assay that allowed simple and direct functional testing of putative activators or repressors of transcription. This chapter includes a general de ...

Brain slices prepared from early postnatal rodents can be maintained in culture from many weeks to months. In culture, brain slices retain their original characteristic cytoarchitecture (organotypic) and continue to differentiate and mature in vitro resembling the characteri ...

RNA in situ hybridization is a commonly used technique to achieve spatiotemporal detection of transcripts in tissues. This chapter gives an overview of novel techniques using fluorescent dyes, signal amplification methods, and confocal microscopy in regard to chronobiological ...

The progress in the understanding of the molecular machinery of mammalian circadian clocks, in combination with the well-established role of the hypothalamic suprachiasmatic nucleus (SCN) as a master circadian clock, has provided an invaluable system for the study of the molecular ba ...

Immunocytochemistry (ICC) is a sensitive and powerful method that is used to localize and identify cells containing a particular antigen. This chapter is dedicated to ICC of suprachiasmatic nucleus (SCN) slices. After a brief introduction to the technique, the materials and methods sec ...

The timing of both entry and permanence of core-clock proteins in the nucleus is critical to maintain the correct pace of the clock mechanism. Several such proteins, namely CRYPTOCHROMEs (CRY), PERIODs (PER), and BMAL1, were recently shown to contain nuclear transport signals that facilita ...

The author has developed an ensemble of digital signal analysis techniques applicable to biological time series containing circadian and ultradian periodicities that is of very high resolution and functions well even in the presence of extreme noise and trend. A method for quantifying ...

Arabidopsis thaliana is internationally adopted as the model plant species for molecular genetics. As such a huge range of resources are available for its study. Arabidopsis does not display any obvious circadian rhythms; however, rhythms in gene expression can be readily detected. For t ...

In the filamentous fungus Neurospora crassa the production of asexual spores (conidia) is regulated by its circadian clock. When the fungus is grown on a thin layer of agar medium in long growth tubes (so-called “race tubes”), restricting its growth to one direction only, bright orange bands are cl ...

In the 1970s, the intriguing discovery of autonomous circadian rhythmicity at the behavioral level in Drosophila set the starting point for one of the most remarkably rapid advancements in the understanding of the genetic and molecular bases of a complex behavioral trait. To this end, the des ...

Oxidative damage to cellular macromolecules is believed to underlie the development of many pathological states and aging. The agents responsible for this damage are generally thought to be reactive oxygen species, such as superoxide, hydrogen peroxide, and hydroxyl radical. The ma ...

Compromised mitochondrial DNA structural integrity can have functional consequences in mitochondrial gene expression and replication leading to metabolic and degenerative diseases, aging and cancer. Gel electrophoresis coupled with Southern blot and probe hybridiza ...

8-Oxoguanine (8-oxoG), an oxidized form of guanine, is one of the major mutagenic lesions generated under oxidative stress. Oxidative damage in mitochondrial DNA has been implicated as a causative factor for a wide variety of degenerative diseases as well as for cancer during aging. We establ ...

Mitochondrial DNA (mtDNA) is in relatively close proximity to reactive oxygen species (ROS) arising from spontaneous superoxide formation during respiration. As a result, it sustains oxidative damage that may include base modifications, base loss, and strand breaks. mtDNA replic ...

The mitochondrial genome represents a target for exogenous and endogenous damage. Its necessity for successful electron transport makes its repair valuable to the cell. Previous work from our lab has shown that mitochondrial DNA (mtDNA) can be repaired in mammalian cells, and the use of mito ...

Mutation of human mitochondrial DNA (mtDNA) has been linked to maternally inherited neuromuscular disorders and is implicated in more common diseases such as cancer, diabetes, and Parkinson’s disease. Mutations in mtDNA also accumulate with age and are therefore believed to contrib ...

Oxidative base lesions, such as 8-oxoguanine, accumulate in nuclear and mitochondrial DNAs under oxidative stress, resulting in cell death. However, it is not known whether only oxidative lesion accumulated in mitochondrial DNA is involved in such cell death. By introducing human cDNA e ...

Since its introduction more than a decade ago, denaturing HPLC has been widely used to screen nuclear and mitochondrial DNA for mutations. We recently developed a quantitative method based on denaturing HPLC to measure DNA mutation load, using tRNA Leu(UUR) region of the mitochondrial DNA as an ...

Identification of mitochondrial DNA (mtDNA) mutations is essential for diagnosis and genetic counseling of mitochondrial diseases. In this chapter, we describe a strategy for the rapid identification of heteroplasmic mtDNA mutations that can be used routinely in molecular gene ...

Mitochondrial genome integrity is an important issue in somatic mitochondrial genetics. Development of quantitative methods is indispensable to somatic mitochondrial genetics as quantitative studies are required to characterize heteroplasmy and mutation processes, ...