Identification and localisation of a nucleoporin-like protein component of the plant nuclear matrix

Salt-detergent extraction of purified plant nuclei yields a fraction enriched in putative structural proteins known as the nuclear matrix. Compared with mammalian nuclear matrices, which contain three major proteins, plant nuclear matrices are complex, containing at least 100 polypeptides. In order to characterise more fully the plant nuclear matrix we have used antibodies raised against both yeast (Saccharomyces cerevisiae) and mammalian (rat) nuclear pore proteins. We have shown that the nuclear matrix of carrot (Daucus carota L.) contains at least one nucleoporin-like protein of about 100 kDa which is immunologically related to both the yeast nuclear pore protein NSP1 and mammalian nucleoporins (p62). Antibody labelling of a variety of plant cells at the light-microscope and electron-microscope levels confirms that this antigen is located at the nuclear pores. This, to our knowledge, is the first identification of a nuclear pore protein in plants.Abbreviations IgG immunoglobulin G - kDa kilodaltons - DAPI 4,6-diamidino-2-phenylindole - FITC fluorescein isothioganate The authors would like to thank Dr. E. Hurt (European Molecular Biology Laboratory, Heidelberg, FRG) for antibodies against yeast nucleoporins, and Dr. L. Davis (Whitehead Institute for Biomedical Research, Cambridge, Mass., USA) for the monoclonal antibodies MAb 414 & 350. We thank Brian Wells for useful advice on electron microscopy. We also thank Peter Scott, Andrew Davis, and Nigel Hannant for photography, and Sue Bunnewell for development and printing of electronmicrographs.     

A nuclear protein associated with cell divisions in plants

A nuclear protein, present in carrot meristems and rapidly proliferating cultured cells of carrot (Daucus carota L.) has been identified by the use of a monoclonal antibody (MAb 21D7). By combining the techniques of two-dimensional polyacrylamide gel analysis and blotting separated proteins onto nitrocellulose sheets, it was shown that the antibody detected a single polypeptide of apparent molecular mass (M _r) of 45000 and an isoelectric focusing point (pI) of 6.7. This protein was found by subcellular fractionation and immunofluorescence to be highly concentrated in the nucleoli of somatic and zygotic embryos of a wide range of plants. It was not detectable in logarthmically growing cells ofEscherichia coli, yeast, embryos ofDrosophila melanogaster or cultured C3H mouse cells. These data indicate that this protein is a highly conserved non-histone protein associated with nuclei of rapidly dividing plant cells.Abbreviations M _r apparent molecular mass - Da dalton - Ig immunoglobulins - MAb monoclonal antibody - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - 2-D gel two-dimensional gel electrophoresis - 2,4-D 2,4-dichlorophenoxyacetic acid     

Biochemical and immunological characterization of pea nuclear intermediate filament proteins

In immunoblot assays, at least three putative nuclear intermediate filament (NIF) proteins were detected in nuclear envelope-matrix (NEM) and lamin (L1) fractions of nuclei from plumules of dark-grown pea (Pisum sativum L.) seedlings. These NIF proteins had apparent molecular masses of ca. 65, 60, and 54 kDa (also referred to as p65, p60, and p54), and appeared as multiple isoelectric forms, with pIs ranging from ca. 4.8 to 6.0. Polyclonal and monoclonal antibodies were raised to the 65-kDa NIF protein bands excised from gels after electrophoresis. These anti-pea antibodies were specifically cross-reactive with the pea nuclear p65, p60, and p54 proteins and also with chicken lamins. Sequence alignment of peptide fragments obtained from the 65- and 60-kDa pea NIF proteins showed similarity with animal intermediate filament proteins such as lamins and keratins and with certain plant proteins predicted to have long coiled-coil domains. These pea NIF proteins were further purified and enriched from the NEM fraction using methods similar to those used for isolating animal lamins. When negatively stained and viewed by transmission electron microscopy, the filaments in the pea lamin (L1) fraction appeared to be 6–12 nm in diameter. As assayed by immunofluorescence cytochemistry using a confocal laser-scanning microscope, fixed pea plumule cells displayed uniform as opposed to peripheral nuclear staining by several of the antibody preparations, both polyclonal and monoclonal. This report describes the biochemical and immunological properties of these pea NIF proteins.Abbreviations IF Intermediate filament - L Lamin fraction - LM Lamina-matrix fraction - MAb JLA20 Anti-chicken actin monoclonal antibody - MAb LN43 Anti-human lamin B2 monoclonal antibody - MAb PL19 Anti-pea lamin #19 monoclonal antibody - MAb TIB 131 Anti-intermediate filament monoclonal antibody - N Nuclei fraction - NEM Nuclear envelope-matrix fraction - NIF Nuclear intermediate filament - PAb PL3 Anti-pea lamin #3 polyclonal antibody     

Studies on the regulation of 1-aminocyclopropane-1-carboxylate synthase in tomato using monoclonal antibodies

A partially purified preparation of 1-aminocyclopropane-1-carboxylate (ACC) synthase (EC 4.4.1.14) from tomato (Lycopersicon esculentum (Mill.) fruit tissue was used to generate monoclonal antibodies (MAb) specific for the two different MAbs yielded a 50-kDa polypeptide as shown by sodium dodecylsulfate-polyacrylamide gel electrophoresis. An enzyme-linked immunosorbent assay (ELISA) capable of detecting <1 ng of antigen was developed. The ELISA system was used to demonstrate that two of the MAbs recognized different epitopes on the ACC-synthase protein. Wound-induced increases in ACC-synthase activity in tomato fruit tissue were correlated with changes in ELISA-detectable protein. In-vivo labeling of wounded tissue with [³⁵S]methionine followed by extraction and immunopurification in the presence of various protease inhibitors yielded one major radioactive band of 50 kDa molecular mass. Pulse labeling with [³⁵S]methionine at various times after wounding indicated that the wound-induced increase in ACC-synthase activity involved de-novo synthesis of a rapidly turning over 50-kDa polypeptide.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - ELISA enzyme-linked immunosorbent assay - MAb monoclonal antibody - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Nuclear matrix proteins (with molecular masses of 38 and 50 kDa) are transported by chromosomes in mitosis

Using the immunofluorescence method, sera M-68 and K-43 from patients with autoimmune diseases were shown to stain interphase nuclei and the periphery of mitotic chromosomes of pig embryo kidney cells. Western blotting revealed a polypeptide with a molecular mass of 50 kDa in M-68 serum and polypeptide with a molecular mass 38 kDa in K-43 serum. In the nuclear protein matrix, the antibodies to protein with a molecular mass of 38 kDa stained only the nucleolar periphery, while the antibodies to protein with a molecular mass of 50 kDa stained not only the nucleolar periphery, but also all interphase nuclei. It was shown that, among all components of the nuclear protein matrix (lamina, internuclear network, residual nucleoli), only the nucleolar periphery contained the 38-kDa protein, while the 50-kDa protein was part of the residual nucleolar periphery and participated in the formation of a nuclear-protein network. Both proteins in interphase cell in situ were located in nuclei, but one of them with a molecular mass of 50 kDa was in the form of small, clearly outlined granules, while the other protein (38 kDa) was in the form of small, bright granules on a background of a diffusely stained nucleus. Both proteins also were revealed as a continuous rim around the nucleolar periphery. During all mitotic stages, the 50-kDa protein was seen over the whole chromosomal periphery as a sheath, while the 38-kDa protein formed individual fragments and granules around them. After the decondensation of the nucleus and chromosomes induced by hypotonic treatment, both antibodies stained interphase nuclei diffusely, whereas, in mitotic cells, they stained the surfaces of swollen chromosomes. Polypeptide with a molecular mass of 50 kDa maintained a strong connection with the periphery of the chromosome in the norm during decondensation induced by hypotonic treatment and during subsequent recondensation in isotonic medium, while, during recondensation, protein with a molecular mass of 38 kDa partially lost contact with the chromosome and, at the same time, appeared in the form of granules in the cytoplasm. The obtained data allow one to conclude that nuclear matrix proteins can be transferred with peripheral chromosomal material; similar to the main nucleolar proteins (fibrillarin, B-23, nucleolin, et al.) and some non-nucleolar components of the nuclear protein matrix, they can also have connections of different stabilities with chromosomal periphery.     

Redistribution of nuclear envelope associated antigen during the mitotic cycle.

Murine hybridomas were generated to DNA/tight binding proteins complex isolated from the residual nuclear structure following a procedure analogous to that yielding "empty" shells of nuclear envelope. A monoclonal antibody designated 2A8 was selected because of its differential immunostaining of mitotic cells of a synchronized mouse fibroblast cell culture L-929. The target antigen was rendered insoluble by a sequence of extractions of isolated nuclei of diverse cell types with detergents, urea, DNase I and alkali thus reproducing some solubility properties of proteins constituting an operationally defined residual nuclear matrix. The cognate polypeptide was localized on a subset of proteins of Mr 58-65 kDa, 70 kDa in isolated fibroblast nuclear matrices. The functional implication of the antigen in mitosis-related disassembly-assembly process of the nuclear matrix/envelope was detected. At prophase the antibody decorated the nuclear periphery and nuclear envelope fixed inward filaments. A fibrous network of cytoplasmic localization was stained in metaphase. At anaphase the antigen was dispositioned into peripheral fibrogranular clusters of polar orientation predominantly on one side of the nucleus. Proceeding to telophase a spreading fluorescence was manifested over the entire contour of the nuclear periphery to delineate the reforming nucleus. By immunogold electron microscopy of interphase cells the antigen was identified as evenly distributed in chromatin and interchromatin regions. At initiation of chromosome condensation in mitosis the label was detected predominantly in the chromosomal area.     

Assembly and disassembly of the peripheral architecture of the plant cell nucleus during mitosis

The architecture of the nuclei of higher plants includes a structure similar to the nuclear lamina of vertebrates. Changes in this structure were monitored during mitosis in carrot (Daucus carota L.) and celery (Apium graveolens L.) cells by immunofluorescence microscopy using an antibody that recognized the nuclear-matrix protein NMCP1. This protein has been shown to be localized exclusively at the periphery of the nucleus (K. Masuda et al. 1997, Exp Cell Res 232: 173–187). Immunofluorescence was recognized throughout cells in mitotic metaphase, although it was distributed predominantly in the mitotic spindle zone. At late anaphase or telophase, the immunofluorescence was localized around each set of daughter chromosomes. Immunofluorescence in newly formed daughter nuclei was restricted to the periphery of nuclei. This behavior was very similar to that of the nuclear lamina of vertebrates, suggesting that the structure located between the nuclear envelope and the chromosomes in plants disassembles and assembles in parallel with the disintegration and re-formation of the nuclear envelope. Received: 30 April 1999 / Accepted: 26 June 1999     

Synaptonemal complexes are integral components of the isolated mouse spermatocyte nuclear matrix

Synaptonemal complexes (SCs) have been isolated as integral components of the nuclear matrix from purified mouse pachytene spermatocytes. These nuclear synaptonemal complex-matrices are prepared by extracting Triton X-100-treated nuclei with low (0.2 M) and high (1.0 or 2.0 M) NaCl, DNase I, and RNase A to remove 85% of the nuclear proteins, 97% of the RNA, and 99% of the DNA. Studies with the light and electron microscopes indicate that these matrices, while lacking a distinct lamina, contain nuclear pores interconnected by a fiber network, residual nucleoli, and interchromatin fibers. In addition, the pachytene spermatocyte matrices contain residual XY heterochromatin and the principal components of the SCs, including two lateral elements, a central element, a presumptive centromere, and attachment plaques. These SCs are preserved within the matrix and retain their structural association with the pore-fiber complex, even when subjected to strong dissociating conditions. Nuclear matrices from pachytene spermatocytes and spermatids (steps 1-8), when analyzed by SDS PAGE, contain an array of polypeptides distinct from those of mouse liver nuclear matrices. Proteins of spermatogenic matrices range in Mr from 8,000 to approximately 150,000. The prominent lamina proteins (Mr approximately 60,000-70,000) of somatic nuclear matrices are either absent or represent only a minor part of the spermatogenic matrix. The polypeptide composition of the pachytene spermatocyte and spermatid matrices are similar, although minor quantitative and qualitative differences are evident. These observations suggest that the SC constituents may consist of a heterogeneous group of proteins present in low proportion relative to total matrix proteins, or they may be retained, but in a different form, within the spermatid matrix.     

Association of poly(ADP-ribose) polymerase with the nuclear matrix: the role of intermolecular disulfide bond formation, RNA retention, and cell type.

The recovery of the enzyme poly(ADP-ribose) polymerase (pADPRp) in the nuclease- and 1.6 M NaCl-resistant nuclear subfraction prepared from a number of different sources was assessed by Western blotting. When rat liver nuclei were treated with DNase I and RNase A followed by 1.6 M NaCl, approximately 10% of the nuclear pADPRp was recovered in the sedimentable fraction. The proportion of pADPRp recovered with the residual fraction decreased to less than 5% of the total nuclear polymerase when nuclei were prepared in the presence of the sulfhydryl blocking reagent iodoacetamide and increased to approximately 50% of the total nuclear pADPRp when nuclei were treated with the sulfhydryl cross-linking reagent sodium tetrathionate (NaTT) prior to fractionation. To determine whether this effect of disulfide bond formation was unique to rat liver nuclei, nuclear matrix/cytoskeleton structures were prepared in situ by sequentially treating monolayers of tissue culture cells with Nonidet-P40, DNase I and RNase A, and 1.6 M NaCl (S.H. Kaufmann and J.H. Shaper (1991) Exp. Cell Res. 192, 511-523). When nuclear monolayers were prepared from HTC rat hepatoma cells, CaLu-1 human lung carcinoma cells, and CHO hamster ovary cells in the absence of NaTT, pADPRp was undetectable in the nuclease- and 1.6 M NaCl-resistant fraction. In contrast, when nuclear monolayers were isolated in the presence of NaTT, from 5% (CaLu-1) to 26% (HTC cells) of the total nuclear pADPRp was recovered with the nuclease- and salt-resistant fraction. Examination of these residual structures by SDS-polyacrylamide gel electrophoresis under nonreducing conditions suggested that pADPRp was present as a component of disulfide cross-linked complexes. Further analysis by immunofluorescence revealed that the pADPRp was diffusely distributed throughout the CaLu-1 or CHO nuclear matrix. In addition, when matrices were prepared in the absence of RNase A, pADPRp was also observed in the residual nucleoli. These observations reveal that the recovery of pADPRp with a nuclease- and salt-resistant nuclear subfraction is dependent on the source of the nuclei and on the conditions used to fractionate those nuclei. In addition, these observations raise the possibility that there might be different functional classes of pADPRp molecules within the nucleus.     

Nuclear granules recognized by some monoclonal antibodies against intermediate filament protein locate on chromosomes during mitosis

AC54 monoclonal antibody (MAb), an anti-desmin MAb, recognizes both intermediate filaments (IFs) and nuclear granules in BHK21/C13 cells. To investigate nuclear granules, similar MAbs were obtained by using desmin fraction as an antigen. Among them, DSB389 MAb recognized mainly nuclear granules in HeLa and rat liver cells. The nuclear granules in HeLa cells were aligned in arrays, sometimes connected by, or part of, a rope-like structure, and stable against treatment with 0.5% Triton X-100 and 2 M NaCl. They located on or around the chromosomes during mitosis. Essentially the same results were obtained with DSB860 and AC54 MAbs. The distribution of the granules in liver nuclei recognized by DSB389 MAb was similar to that of DNA and was different from that of the nuclear pore complexes. The biological significance of the nuclear granules is discussed.     

Heat-induced stabilization of the nuclear matrix: A morphological and biochemical analysis in murine erythroleukemia cells

Using mouse erythroleukemia cells we performed a comprehensive morphological and biochemical study of the nuclear matrix obtained after exposure of isolated nuclei to 37 degrees C or from cells heat shocked in vivo at 43 or 45 degrees C. At the ultrastructural level it was possible to see that in the absence of a 37 degrees C incubation of purified nuclei, the final matrix lacked well-defined nucleolar remnants but a peripheral lamina was clearly visible, as well as a sparse fibrogranular network which was located at the periphery of the structures. On the contrary, after a 37 degrees C nuclear incubation, very electron-dense nucleolar remnants were observed along with an abundant meshwork dispersed throughout the interior of the structures. When intact cells were heat shocked in vivo, electron-dense residual nucleoli were present only when isolated nuclei had been exposed to 37 degrees C in vitro, whereas without such an incubation, they were not as easily distinguishable and appeared less electron-dense. In the latter case the inner network was more evenly distributed. After purified nuclei were incubated at 37 degrees C for 45 min, the high salt and DNase I resistant fraction retained about 18% of the nuclear protein whereas if the heating was omitted protein recovery dropped to 6%. An increase in the recovery of intact structures in the matrix fraction was the main reason for the higher protein recovery. Heating nuclei in vitro further increased the amount of nuclear protein present in the matrix fraction even if intact cells had been heat shocked in vivo. No major qualitative differences were seen when the polypeptide pattern of the various types of nuclear matrices was analyzed on one-dimensional polyacrylamide gels and this finding was further supported by Western blot analysis with a monoclonal antibody to lamins A and C. These results show that heating mainly stabilizes the nucleolar remnants of the matrix and to a lesser extent the inner network, but the morphology of the final structures is different depending on whether the stabilization is performed in vivo or in vitro.     

Residual Nuclear structures fromZea mays L.

Nuclei fromZea mays L. root tip meristematic cells were treated according to the conventional method for nuclear matrix isolation and according to a recently adapted procedure for isolation of nuclear shells from plant cells. In the first case, after high salt extraction of proteins and DNase I and RNase digestions, residual structures are obtained consisting of a periferal layer and an internal network. The obtained structures are very similar to the nuclear matrix preparations from animal cells. In case nuclei are swollen in EDTA first, digested with DNase II and RNase prior high salt treatment, structures devoid of internal network are obtained. The analogous residual structures were shown forPhaseolus vulgaris L. meristematic root cells nuclei (Galcheva-Gargovaet al. 1988). The morphology and the protein composition of the two types of residual structures suggest that the organization of scaffold structures from plant nuclei is very similar to the one from animal cell nuclei.     

The development of branched silk gland nuclei

Nuclei in the giant polyploid silk gland cells of Calpodes ethlius grow by endomitosis and can develop hundreds of branches during larval life. The shape of the these nuclei is characteristic for each region of the gland. We have found shape to be correlated with arrangement of the nuclear matrix. Scanning electron microscopy showed nuclear matrices with shapes similar to those of feulgen stained nuclei. Profiles of isolated matrices seen by transmission electron microscopy had filaments aligned parallel to the long axis of nuclear branches. DNA stained by Hoechst had a similar parallel alignment within the branches. Nuclear shape may be maintained by a small number of components, since electrophoretic analysis showed only a few abundant polypeptides in the matrix fraction. Silk gland nuclei have some of the same nuclear matrix antigens found in smaller, more regularly shaped, eukaryote nuclei.     

Avena sativa L. contains three phytochromes,only one of which is abundant in etiolated tissue

Phytochrome from leaves of light-grown oat (Avena sativa L. cv. Garry) plants is characterized with newly generated monoclonal antibodies (MAbs) directed to it. The results indicate that there are at least two phytochromes in green oat leaves, each of which differs from the phytochrome that is most abundant in etiolated oat tissue. When analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with reference to 124-kilodalton (kDa) phytochrome from etiolated oats, the two phytochromes from green oats have monomer sizes of 123 of 125 kDa. Immunoblot analysis of SDS, sample buffer extracts of lyophilized, green oat leaves indicates that neither the 125-kDa nor the 123-kDa polypeptide is a degradation product arising after tissue homogenization. Of the two, the 123-kDa phytochrome appears to be the predominant species in light-grown oat leaves. During SDS-PAGE in the presence of 1 mM Zn²⁺, 123-kDa phytochrome undergoes a mobility shift corresponding to an apparent mass increase of 2 kDa. In contrast, the electrophoretic mobility of 125-kDa phytochrome is unaffected by added Zn²⁺. Some MAbs that recognize 123-kDa phytochrome fail to recognize 125-kDa phytochrome and vice versa, indicating that these two phytochromes are not only immunochemically distinct from 124-kDa phytochrome, but also from each other. It is evident, therefore, that there are at least three phytochromes in an oat plant: 124-kDa phytochrome, which is most abundant in etiolated tissue, plus 123-and 125-kDa phytochromes, which predominate in light-grown tissue.Abbreviations Da Dalton - HA hydroxyapatite - MAb monoclonal antibody - PAb polyclonal antibody preparation - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate This research was supported by the U.S. Department of Energy (contract DE-AC-09-81SR10925 to L.H.P.). We thank Dr. Alan Jones, Department of Biology, University of North Carolina, Chapel Hill, USA, for kindly providing rabbit antiserum 4032, and Mrs. Donna Tucker and Mrs. Danielle Neal for their technical assistance.     

A 46-kDa antigen associated with estrogen receptor in human breast cancer

A 65-kDa estrogen receptor (ER) protein has been demonstrated both by sucrose gradient analysis and by immunoblot, using anti-ER monoclonal antibodies (MAbs). Since the ER is denatured in many experimental situations, such as formaldehyde fixing of samples for histochemistry and electroimmunoblotting studies, in this work we used a denatured 60-70-kDa ER-rich protein preparation as antigen for mice immunization in order to raise anti-ER MAbs. That material was obtained by affinity purification on an allyl-estradiol matrix of the MCF-7 cytosolic ER, followed by further isolation and enrichment by PAGE. NS-1 myeloma cells and spleen lymphocytes from the immunized mice were fused, and resultant hybridoma colonies were screened by [125I]-estradiol-labelled nuclear ER immunoprecipitation. The isolated MAb, E476, shows a moderate ability to precipitate ER and reacts strongly with a 46-kDa antigen in Western blot assay. The 46-kDa antigen was not detectable in native cytosol but became reactive after 50% ammonium sulfate precipitation of cytosolic proteins. The 46-kDa antigen appeared concentrated in the NaSCN plus estradiol eluate of the affinity column used for cytosolic ER purification. Freshly prepared 60-70-kDa material from the preparative gel electrophoresis did not show any E476 reactivity. However, when the 60-70-kDa proteins were frozen, thawed and speed vacuum concentrated, the 46-kDa antigen became detectable. Storage increased the reactivity of the 60-70-kDa material with the E476 MAb. The 46-kDa antigen was present only in the ER positive cell lines, and was absent in all negative cell lines tested. The 46-kDa protein is also present in the ER positive human breast cancer specimens. We conclude that the 46-kDa protein identified with the E476 MAb in human breast cancer is probably a naturally occurring ER fragment.     

Intermediate filament antigens of 60 and 65 kDa in the nuclear matrix of plants: their detection and localization.

Although the presence of a matrix in plant nuclei has been reported, major questions remain about its structural and biochemical features. We have used an intermediate filament antibody of broad specificity to explore whether Daucus carota (carrot) nuclei and nuclear matrices contain intermediate filament/lamin antigens and, if so, where specifically they are localized. SDS-PAGE and Western blotting revealed two bands, at 60 and 65 kDa, that were highly immunoreactive with the intermediate filament antibody (IFA) of Pruss et al. (1981, Cell 27, 419-428). This pattern was observed consistently, not only with carrot cell-free nuclei and nuclear matrices, but also with nuclear preparations from Vicia faba (broad bean) and Pisum sativum (pea). Immunofluorescence studies with whole carrot nuclei localized the IFA antigens to the nucleoplasm and disclosed no accentuated peripheral labeling. Agarose-embedded nuclear matrices showed not only fluorescence throughout the nucleoplasm but also heavy labeling surrounding the nucleoli and suggestions of peripheral labeling. At the ultrastructural level, immunogold results from pre- and postembedment treatments supported the conclusion that IFA antigens occur throughout the nucleoplasm, with possibly a slight concentration at the periphery. These combined results provide substantial evidence that plant nuclei and their matrices possess at least two major intermediate filament antigens with molecular weights characteristic of animal lamins. Whether or not these antigens represent plant lamins, their nonperipheral localization hints at significant differences among the eukaryotic kingdoms in nuclear organization.     

Production of Monoclonal Antibodies Against Neurofilament-Associated Proteins: Demonstration of Association with Neurofilaments by a Coimmunoprecipitation Method

Abstract: A panel of monoclonal antibodies (MAbs) was produced against mouse brain proteins that bind to the tail domain of the neurofilament (NF) heavy (200-kDa) subunit (NF-H) in vitro. An in vivo association of the MAb ligands with NFs was confirmed by examining reactivity of the MAbs with immunoprecipitated NF-H complexes. Using this method we demonstrated association of the ligands of three of the MAbs with NFs. In contrast, glial fibrillary acidic protein and an unknown 97-kDa brain protein were not associated with NFs by this criterion. An 80-kDa doublet that coimmunoprecipitated with NF-H complexes, recognized by MAb 223, was shown by immunocytochemistry and immunoblotting to be synapsin Ia and Ib. Using a complementary approach, we confirmed an association of synapsin with NFs by demonstrating that immunoprecipitated synapsin I complexes contained NF-H and NF medium (160-kDa) subunits. MAbs 63 and 105 recognized a more complex set of proteins that had predominantly synaptic localizations. These data suggest that NFs may provide important support for attachment and/or transport of synaptic proteins in brain.     

植物细胞中NuMA类似蛋白的分布及其在细胞周期中的变化

免疫荧光染色结果说明植物细胞核内含有与抗动物ＮｕＭＡ多抗呈阳性交叉反应的多肽。选择性抽提并结合免疫荧光染色结果说明这种多肽位于核基质纤维蛋白网络上。免疫印迹反应显示胡萝卜（ＤａｕｃｕｓｃａｒｏｔａＬ．）悬浮培养细胞核基质蛋白与抗动物ＮｕＭＡ蛋白多抗的阳性反应条带为７４ｋＤ和７６ｋＤ。有丝分裂各期免疫荧光染色的结果表明植物细胞中的ＮｕＭＡ类似蛋白在有丝分裂过程中呈现有规律的变化。结合选择性抽提的有丝分裂各期的免疫荧光染色的结果表明核基质在此过程中也发生明显变化。应用选择性抽提并结合ＤＧＤ包埋去包埋电镜技术对植物细胞间期及有丝分裂期核基质的形态结构进行了观察。结果显示胡萝卜悬浮培养细胞间期核内存在一个非染色质性的纤维蛋白网络体系,而在正处于分裂的细胞中则未观察到。以上结果说明ＮｕＭＡ类似蛋白是核基质的组分之一并与有丝分裂密切相关。     

Presence of Calmodulin and Calmodulin-Binding Proteins in the Nuclei of Brain Cells

The nuclear calmodulin levels have been measured in rat neurons and glial cells. The values are 1.0 and 1.1 γg/ mg of protein, respectively. These levels are about threefold higher than those in the nuclei of rat liver cells. We have also investigated the presence of several calmodulin-binding proteins in the nuclei of both brain cellular types. As similarly observed in the nuclei of liver cells, we detected the presence of a-spectrin and a 62-kDa calmodulin-binding protein (p62) in the nuclei of neurons and glial cells by irnmunoblotting and immunocytochemical methods. Both proteins are enriched in the purified nuclear matrix samples from both cellular types. In contrast to that occurring in rat hepatocytes, we have not been able to detect, by irnmunoblotting methods, caldesmon in the nuclear matrices of neurons and glial cells. The immunocytochemical studies suggest, however, that caldesmon can be present in the nuclei but in a fraction distinct from the nuclear matrices.