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51.
Hox genes belonging to the Abd-B subfamily of the HoxA and HoxD clusters play a crucial role in cartilage formation both in patterning and growth/differentiation phases during limb development. We re-examined the expression profiles of Hoxa-13, Hox-d13, Hoxa-11 and Hoxd-11 during the cartilage growth/differentiation phase of limb cartilage formation. The expression profiles of these Hox genes were analyzed by in situ hybridization and immunohistochemistry on serial sections by comparing the expression patterns with well-characterized signaling molecules, e.g. Bmp-2, -4, Patched (Ptc) and Indian Hedgehog (IHH). In contrast to earlier reports, these Hox genes were expressed in the mesenchymal cell layer closely adjacent to the growing cartilage, but not in the perichondrium of the cartilage. This result prompts us to reconsider the mode of Hox function during cartilage growth and differentiation phase. 相似文献
52.
The hydrolysis reaction of chitosan using immobilized chitosanases with regard to the composition of its products and the yield of the intermediate target products, pentamer and hexamer of chitosan oligosaccharides, was investigated. Chitosanase was immobilized onto agar or agarose gel particles by the multipoint attachment method. In batch experiments, surface enzyme density, support particle size, temperature, agitator speed, and initial substrate concentration significantly affected the composition of the oligosaccharides produced. It was believed that these factors all related to the reaction rate and mass transfer rate at the surface of the support materials immobilizing the enzymes. These effects were summarized as a correlation with Damk?hler number (Da), defined as the ratio of the maximum reaction rate to the maximum mass transfer rate. The result showed that the reaction conditions that give a low value of Da provide a high yield of pentamer and hexamer oligosaccharides. 相似文献
53.
Cloned transchromosomic calves producing human immunoglobulin 总被引:16,自引:0,他引:16
54.
Artificial chromosome vectors and expression of complex proteins in transgenic animals 总被引:4,自引:0,他引:4
Artificial chromosome vectors are autonomous, replicating DNA sequences containing a centromere, two telomeres and origins of replication. Artificial chromosomes have been proposed as possible vectors for transferring very large sequences of DNA into animals. Our goal has been to insert the entire human heavy- and light-chain immunoglobulin loci into cattle as a step in developing a production system for large quantities of human therapeutic polyclonal antibodies. A mitotically stable fragment of chromosome 14, containing the human heavy-chain locus, was identified. A chromosome cloning system was used to transfer the human lambda locus from an unstable chromosome 22 fragment to the chromosome 14 fragment to create a human artificial chromosome (HAC) carrying both immunoglobulin loci. The HAC vector was introduced into bovine primary fibroblasts. Selected fibroblast clones were rejuvenated and expanded by producing cloned fetuses. Cloned fetal cells were selected and recloned to produce 21 healthy, transchromosomic (Tc) calves. Four were analyzed and shown to functionally rearrange both heavy- and light-chain human immunoglobulin loci and produce human polyclonal antibodies. These results demonstrate the feasibility of using HAC vectors for production of transgenic livestock. More importantly, Tc cattle containing human immunoglobulin genes may be used to produce novel human polyclonal therapeutics. 相似文献
55.
56.
Manipulation of human minichromosomes to carry greater than megabase-sized chromosome inserts 总被引:9,自引:0,他引:9
Kuroiwa Y Tomizuka K Shinohara T Kazuki Y Yoshida H Ohguma A Yamamoto T Tanaka S Oshimura M Ishida I 《Nature biotechnology》2000,18(10):1086-1090
For introducing regions of human chromosomes greater than a megabase into cells or animals, we have developed a chromosome-cloning system in which defined regions of human chromosomes can be cloned into a stable human minichromosome vector in homologous recombination-proficient chicken DT40 cells. The stable minichromosome vector allowed a 10 Mb-sized region of the mitotically unstable human chromosome 22 to be stably maintained in mouse embryonic stem (ES) cells, and in mice. Furthermore, we demonstrated functional expression of human genes from the HAC in mice. This study describes a stable cloning and expression system for greater than megabase-sized regions of human chromosomes. 相似文献
57.
The electron-electron double resonance (ELDOR) method was applied to measure the dipole interaction between cytochrome (Cyt) b(+)(559) and the primary acceptor quinone (Q(-)(A)), observed at g=2.0045 with the peak to peak width of about 9 G, in Photosystem II (PS II) in which the non-heme Fe(2+) was substituted by Zn(2+). The paramagnetic centers of Cyt b(+)(559)Y(D)Q(-)(A) were trapped by illumination at 273 K for 8 min, followed by dark adaptation for 3 min and freezing into 77 K. The distance between the pair Cyt b(+)(559)-Q(-)(A) was estimated from the dipole interaction constant fitted to the observed ELDOR time profile to be 40+/-1 A. In the membrane oriented PS II particles the angle between the vector from Q(A) to Cyt b(559) and the membrane normal was determined to be 80+/-5 degrees. The position of Cyt b(559) relative to Q(A) suggests that the heme plane is located on the stromal side of the thylakoid membrane. ELDOR was not observed for Cyt b(+)(559) Y(D) spin pair, suggesting the distance between them is more than 50 A. 相似文献
58.
Summary The coleoptile of rice (Oryza sativa L. cv. Nippon-bare) emerges from the imbibed seed on day 2 after sowing and ceases its growth on day 3. In cross section, the cells near the outer epidermis turn into green between days 2 and 3, while those near the inner epidermis remain colorless. In this study, the complete process of the development in the nongreening cells in the coleoptile was examined by fluorescence and electron microscopy. Embryonic morphology on day 0 was rapidly converted into the differentiated greening or nongreening cells between days 1 and 2. Senescence in the inner, nongreening region first appeared on day 4 in the third or fourth cell layer from the inner epidermis and then spread towards both the inner and the outer epidermis, and the inner cells collapsed completely before the outer cells senesced. Cells adjacent to the inner epidermis, which senesced slowly, followed a sequence of events during development: (1) degradation of plastid DNA; (2) dispersal of nuclear chromatin, differentiation of plastids into amyloplasts, degradation of mitochondrial DNA; (3) degradation of the starch in amyloplasts; (4) disorganization of plastids; (5) condensation of the nucleus, shrinkage of mitochondria; (6) complete loss of cellular components, distortion of cell walls. In the interior cells, the early events including degeneration of plastid DNA and mitochondrial DNA occurred in parallel with those in the cells adjacent to the inner epidermis, yet rapid collapse of all the cellular components proceeded between days 3 and 5, and nuclear condensation could not be detected.Abbreviations cpDNA
chloroplast DNA
- DAPI
4,6-diamidino-2-phenylindole
- DiOC7
3,3-dihexyloxacarbocyanine
- IE
inner epidermis
- mtDNA
mitochondrial DNA
- mt-nucleoid
mitochondrial nucleoid
- OE
outer epidermis
- ptDNA
plastid DNA
- pt-nucleoid
plastid nucleoid 相似文献
59.
60.
H. Takahashi H. Takano H. Kuroiwa R. Itoh K. Toda S. Kawano T. Kuroiwa 《Protoplasma》1998,202(1-2):91-104
Summary In the primitive red algaCyanidium caldarium RK-1, cytokinesis is controlled by a simple contractile ring, as in animal cells. To clarify the mechanism of formation of the contractile ring, we isolated actin genes and performed an immunocytological study.C. caldarium RK-1 has two actin genes encoding proteins with the same sequence of 377 amino acids. The primary structure indicated that the actin molecules ofC. caldarium RK-1 are typical, despite the fact that the organism is considered to be phylogenetically primitive. We prepared antiserum against aC. caldarium RK-1 actin fusion protein and indirect immunofluorescence staining was performed. In interphase cells, many actin dots were observed in the cytoplasm but none at the future cleavage plane. Prior to cytokinesis, some of these dots appeared and became aligned along the equatorial plane. At the same time, a thin immature contractile ring was observed to appear to be formed by connection of the aligned actin dots. This immature contractile ring thickened to nearly its maximum size by the time cytokinesis began. The formation of the contractile ring seemed to be a result of de novo assembly of actin monomers, rather than a result of the accumulation and bundling of pre-existing actin filaments. During the constriction of the contractile ring, no actin dots were observed in the cytoplasm. These observations suggest that actin dots are responsible for the formation of the contractile ring, but are not necessary for its disintegration. Furthermore, immunogold localization specific for actin revealed at electron microscopy level that fine filaments running just beneath the cleavage furrow are, in fact, actin filaments.Abbreviations ORF
open reading frame
- IPTG
isopropyl--D(–)-thiogalactopyranoside
- SDS-PAGE
sodium dodecyl sulphate-poly-acrylamide gel electrophoresis
- DAPI
4,6-diamidino-2-phenylindole 相似文献