Localization and quantitative distribution of a chromatin structural protein Topoisomerase II on plant chromosome using HVTEM and UHVTEM.

Topoisomerase II (TopoII) is an essential structural protein of the metaphase chromosome. It maintains the axial compaction of chromosomes during metaphase. It is localized at the axial region of chromosomes and accumulates at the centromeric region in metaphase chromosomes.

Higher-order structure of barley chromosomes observed by electron tomography.

The higher order structure of the metaphase chromosome has been an enigma for over a century and several different models have been presented based on results obtained by a variety of techniques. Some disagreements in the results between methods have possibly arisen from artifacts caused during sample preparation such as staining and dehydration. Therefore, we treated barley chromosomes with ionic liquid to minimize the effects of dehydration.

Insight into magnesium ions effect on chromosome banding and ultrastructure.

Magnesium ion (Mg ) plays a fundamental role in chromosome condensation which is important for genetic material segregation. Studies about the effects of Mg on the overall chromosome structure have been reported. Nevertheless, its effects on the distribution of heterochromatin and euchromatin region have yet to be investigated.

Epigenetic Distribution of Recombinant Plant Chromosome Fragments in a Human- Hybrid Cell Line.

Methylation systems have been conserved during the divergence of plants and animals, although they are regulated by different pathways and enzymes. However, studies on the interactions of the epigenomes among evolutionarily distant organisms are lacking. To address this, we studied the epigenetic modification and gene expression of plant chromosome fragments (~30 Mb) in a human- hybrid cell line.

Molecular organization of recombinant human-Arabidopsis chromosomes in hybrid cell lines.

Although plants and animals are evolutionarily distant, the structure and function of their chromosomes are largely conserved. This allowed the establishment of a human-Arabidopsis hybrid cell line in which a neo-chromosome was formed by insertion of segments of Arabidopsis chromosomes into human chromosome 15. We used this unique system to investigate how the introgressed part of a plant genome was maintained in human genetic background.

Calcium ion significance on the maintenance of barley (Hordeum vulgare) chromosome compaction.

Cations, especially calcium ions (Ca), is one of the major factors responsible for the chromosome higher-order structure formation. The effects of cations on the human chromosomes have already been evaluated, however, whether the presence of similar effects on plant chromosomes has not been reported to date. Thus, in this study, we investigated the role of Ca on the barley (Hordeum vulgare L.

Surface structures consisting of chromatin fibers in isolated barley (Hordeum vulgare) chromosomes revealed by helium ion microscopy.

The chromosome compaction of chromatin fibers results in the formation of the nucleosome, which consists of a DNA unit coiled around a core of histone molecules associated with linker histone. The compaction of chromatin fibers has been a topic of controversy since the discovery of chromosomes in the 19th century. Although chromatin fibers were first identified using electron microscopy, the chromatin fibers on the surface of chromosome structures in plants remain unclear due to shrinking and breaking caused by prior chromosome isolation or preparation with alcohol and acid fixation, and critical point drying occurred into dehydration and denatured chromosomal proteins.

Imaging the inner structure of chromosomes: contribution of focused ion beam/scanning electron microscopy to chromosome research.

Visualization of the chromosome ultrastructure has revealed new insights into its structural and functional properties. The use of new methods for revealing not only the surface but also the inner structure of the chromosome has been emerged. Some methods have long been used, such as conventional transmission electron microscopy (TEM).

Imaging approaches for chromosome structures.

This review describes image analyses for chromosome visible structures, focusing on the chromosome imaging system CHIAS (Chromosome Image Analyzing System). CHIAS is the first comprehensive imaging system for the analysis and characterization of plant chromosomes. A simulation method for human vision for capturing band positive regions was developed and used for the image analysis of large plant chromosomes with bands.

Higher-Order Structure of Human Chromosomes Observed by Electron Diffraction and Electron Tomography.

It is well known that two DNA molecules are wrapped around histone octamers and folded together to form a single chromosome. However, the nucleosome fiber folding within a chromosome remains an enigma, and the higher-order structure of chromosomes also is not understood. In this study, we employed electron diffraction which provides a noninvasive analysis to characterize the internal structure of chromosomes.

Application of the Chromosome Image Analyzing System (CHIAS) for Straightening Cation-treated Bent Chromosomes.

Divalent cations, mainly calcium and magnesium ions, are known to play a major role in the maintenance of chromosomes. The depletion of both ions using ethylenediaminetetraacetic acid (EDTA) results in a bent chromosome structure with extended arms and dispersed chromatin fibers. The importance of divalent cations for the maintenance of chromosome structure has been reported previously; nevertheless, previous studies were limited to qualitative data only.

Human metaphase chromosome consists of randomly arranged chromatin fibres with up to 30-nm diameter.

During cell division, mitotic chromosomes assemble and are equally distributed into two new daughter cells. The chromosome organisation of the two chromatids is essential for even distribution of genetic materials. Although the 11-nm fibre or nucleosome structure is well-understood as a fundamental fibrous structure of chromosomes, the reports on organisation of 30-nm basic chromatin fibres have been controversial, with debates on the contribution of 30-nm or thicker fibres to the higher order inner structure of chromosomes.

Impact of Diabetes Perceptions on Medication Adherence in Japan.

: Patients' perception of diabetes mellitus is one of the psychosocial factors influencing diabetic behavior. This patients' perception of the disease is a mental image formed from the experience of patients with type 2 diabetes mellitus and reportedly reflects the aspect of recuperation. We investigated the relationship between changes in the patients' perception of the disease and medication adherence, as influenced by the active involvement of community pharmacists.

3D observation of chromosome scaffold structure using a 360° electron tomography sample holder.

The chromosome scaffold is considered to be a key structure of the mitotic chromosome. It plays a vital role in chromosome condensation, shaping the X-shaped structure of the mitotic chromosome, and also provides flexibility for chromosome movement during cell division. However, it remains to be elucidated how the chromosome scaffold organizes the mitotic chromosome and how it supports shaping the structure of the chromosome during metaphase.

Cdk1-dependent phosphorylation of KIF4A at S1186 triggers lateral chromosome compaction during early mitosis.

Chromosome organization during cell division is achieved through the timely association of proteins with chromatin and is regulated by protein phosphorylation. Kinesin family member 4A (KIF4A) plays an important role in the chromosome organization through the formation of the chromosome scaffold structure. However, the relationship between the function of KIF4A and its phosphorylation remains unclear.

Use of 3D imaging for providing insights into high-order structure of mitotic chromosomes.

The high-order structure of metaphase chromosomes remains still under investigation, especially the 30-nm structure that is still controversial. Advanced 3D imaging has provided useful information for our understanding of this detailed structure. It is evident that new technologies together with improved sample preparations and image analyses should be adequately combined.

Production of a Human Cell Line with a Plant Chromosome.

It is a major challenge in biology to know whether chromosome functions of replication, segregation, gene expression, inheritance, etc. are conserved among evolutionary distant organisms where common structural features are maintained. Establishment of hybrid cell lines between evolutionary distant organisms, such as humans and plants, would be one of the promising synthetic approaches to study the evolutionary conservation of chromosome functions.

Development of a quantitative pachytene chromosome map and its unification with somatic chromosome and linkage maps of rice (Oryza sativa L.).

A quantitative pachytene chromosome map of rice (Oryza sativa L.) was developed using imaging methods. The map depicts not only distribution patterns of chromomeres specific to pachytene chromosomes, but also the higher order information of chromosomal structures, such as heterochromatin (condensed regions), euchromatin (decondensed regions), the primary constrictions (centromeres), and the secondary constriction (nucleolar organizing regions, NOR).

Genetic Tracing of L. from Its Mesoamerican Origin to the World.

L. (Jatropha), a shrub species of the family Euphorbiaceae, has been recognized as a promising biofuel plant for reducing greenhouse gas emissions. However, recent attempts at commercial cultivation in Africa and Asia have failed because of low productivity.

Interdependency and phosphorylation of KIF4 and condensin I are essential for organization of chromosome scaffold.

Kinesin family member 4 (KIF4) and condensins I and II are essential chromosomal proteins for chromosome organization by locating primarily to the chromosome scaffold. However, the mechanism of how KIF4 and condensins localize to the chromosome scaffold is poorly understood. Here, we demonstrate a close relationship between the chromosome localization of KIF4 and condensin I, but not condensin II, and show that KIF4 and condensin I assist each other for stable scaffold formation by forming a stable complex.

Calcium depletion destabilises kinetochore fibres by the removal of CENP-F from the kinetochore.

The attachment of spindle fibres to the kinetochore is an important process that ensures successful completion of the cell division. The Ca concentration increases during the mitotic phase and contributes microtubule stability. However, its role in the spindle organisation in mitotic cells remains controversial.

Efficient generation of single domain antibodies with high affinities and enhanced thermal stabilities.

Single domain antibodies (sdAbs), made of natural single variable regions of camelid or cartilaginous fish antibodies, or unpaired variable regions of mouse or human IgGs, are some of the more promising biologic modalities. However, such conventional sdAbs have difficulties of either using unwieldy animals for immunization or having high affinity deficiencies. Herein, we offer a versatile method to generate rabbit variable domain of heavy chain (rVH) derived sdAbs with high affinities (K values of single digit nM or less) and enhanced thermal stabilities (equal to or even higher than those of camelid derived sdAbs).