Your search keyword '"Marc W, Kirschner"' showing total 402 results

301. Posttranslational modification and microtubule stability

Author

Eric Schulze, J C Bulinski, D J Asai, and Marc W. Kirschner

Subjects

Cell type, Tubulin—tyrosine ligase, Fluorescent Antibody Technique, Chick Embryo, Microtubules, Antibodies, Cell Line, Tubulin, Microtubule, Detyrosination, Animals, Humans, Microtubule nucleation, biology, Eye Neoplasms, Retinoblastoma, Brain, Articles, Cell Biology, Cell biology, Cell culture, Acetylation, Microtubule Proteins, biology.protein, Cattle, Protein Processing, Post-Translational

Abstract

We have probed the relationship between tubulin posttranslational modification and microtubule stability, using a variation of the antibody-blocking technique. In human retinoblastoma cells we find that acetylated and detyrosinated microtubules represent congruent subsets of the cells' total microtubules. We also find that stable microtubules defined as those that had not undergone polymerization within 1 h after injection of biotin-tubulin were all posttranslationally modified; furthermore dynamic microtubules were all unmodified. We therefore conclude that in these cells the stable, acetylated, and detyrosinated microtubules represent the same subset of the cells' total network. Posttranslational modification, however, is not a prerequisite for microtubule stability and vice versa. Potorous tridactylis kidney cells have no detectable acetylated microtubules but do have a sizable subset of stable ones, and chick embryo fibroblast cells are extensively modified but have few stable microtubules. We conclude that different cell types can create specific microtubule subsets by modulating the relative rates of posttranslational modification and microtubule turnover.

Published

1987

302. Evidence for a functional role of the cytoskeleton in determination of the dorsoventral axis in Xenopus laevis eggs

Author

C. H. Koster, Koki Hara, Geertje A. Ubbels, and Marc W. Kirschner

Subjects

Functional role, food.ingredient, Centriole, biology, Xenopus, Anatomy, Cleavage (embryo), biology.organism_classification, Sperm, Cell biology, food, Cytoplasm, Yolk, embryonic structures, Cytoskeleton, Molecular Biology, Developmental Biology

Abstract

A normal table of events of the first cleavage period in the fertilized egg (cf. Gerhart, 1980) has been completed (cf. Table I) by studying external and internal features. Through a cytological study of eggs fixed after video time-lapse observation such features can directly be correlated and it has been shown that the first postfertilization wave (PFW) reflects spermaster growth, which causes rearrangements of animal yolk material. This may, in conjunction with the interaction of the spermaster rays with the cortex, define, in time as well as in space, the asymmetric cortical contraction which we suppose to evoke asymmetry in the animal hemisphere by formation of the vitelline wall (Pasteels, 1964) and in the vegetal hemisphere by formation of the Vegetal Dorsalising Centre (Kirschner et al. 1981). Neither prick-activated eggs nor fertilized eggs incubated in vinblastine develop a spermaster. Under these conditions abnormal cytoplasmic segregation may be directed by gravity alone. For normal development the activated egg must in some way, for instance through the sperm centriole, organize microtubule assembly into a monaster. The centriole acts as a microtubule-organizing centre in structuring the egg’s cytoskeleton, and through this directs localization of the various yolk components, in time as well as in space. In egg rotation experiments performed under appropriate conditions, the cytoskeleton is disturbed and yolk rearranges under gravity till a new equilibrium is established which determines a new dorsoventral polarity. Such experiments also show that neither the dorsal cytoplasm nor the grey crescent cortex act as the ultimate dorsal determinants, since their localization is unaltered upon rotation, whereas the overall yolk distribution is significantly changed.

Published

1983

303. Dynamic and stable populations of microtubules in cells

Author

Eric Schulze and Marc W. Kirschner

Subjects

Immunocytochemistry, Population, Fluorescent Antibody Technique, Biology, Kidney, Microtubules, Antibodies, Cell Line, chemistry.chemical_compound, Tubulin, Microtubule, Detyrosination, Chlorocebus aethiops, Animals, Cytoskeleton, education, education.field_of_study, Nocodazole, Articles, Cell Biology, Primary and secondary antibodies, Cell biology, Kinetics, chemistry, biology.protein, Benzimidazoles

Abstract

Using a new immunocytochemical technique, we have visualized the spatial arrangement of those microtubules in cells that are stable to biotin-tubulin incorporation after microinjection. Cells fixed at various periods of time after injection were exposed to antibody to biotinylated tubulin and several layers of secondary antibodies; these layers prevented reaction of biotin-containing microtubules with antitubulin antibodies. The microtubules that had not incorporated biotin-tubulin could then be stained with anti-tubulin and a fluorescent secondary antibody. In BSC1 cells, most microtubules in the cell exchange with a half-time of 10 min. A separate population of microtubules can be detected, using the above techniques, that are stable to exchange for 1 h or more; these have a characteristic pericentrosomal spatial arrangement as compared to the majority of dynamic microtubules. Unlike the dynamic microtubules, most of the stable microtubules are nongrowing. The average BSC-1 cell contains approximately 700 microtubules: approximately 500 growing at 4 micron min-1, 100 shrinking at approximately 20 micron min-1, and approximately 100 that are relatively more stable to exchange. The potential significance of these stable microtubules is discussed.

Published

1987

304. Intracellular localization of the high molecular weight microtubule accessory protein by indirect immunofluorescence

Author

Joe A. Connolly, Vitauts I. Kalnins, Marc W. Kirschner, and Don W. Cleveland

Subjects

Antiserum, biology, Molecular mass, Tau protein, food and beverages, Fluorescent Antibody Technique, Cell Biology, Articles, Molecular biology, Microtubules, Spindle apparatus, Cell Line, Rats, Sepharose, Molecular Weight, Tubulin, Biochemistry, Cytoplasm, Microtubule, biology.protein, Animals, Colchicine, Neuroglia, Glycoproteins

Abstract

Microtubule accessory proteins were isolated from porcine brain microtubules by phosphocellulose chromatography, and the high molecular weight protein (HMW protein), purified from this microtubule-associated fraction by electrophoretic elution from SDS gels, was used to raise antisera in rabbits. In agarose double diffusion tests, the antiserum obtained forms precipitin lines with purified HMW protein but not with tau protein or tubulin. When rat glial cells (strain C6) are examined by indirect immunofluorescence, this serum specifically stains a colchicine-sensitive filamentous cytoplasmic network in interphase cells, a network indistinguishable from that seen when cells are treated with antitubulin serum. In dividing cells, specific staining of the mitotic spindle and the stem body is observed with the antiserum to HMW protein. These studies indicate that HMW protein, like tau protein, is associated with microtubules in intact cells.

Published

1978

305. A microtubule-associated protein from Xenopus eggs that specifically promotes assembly at the plus-end

Author

Marc W. Kirschner and David L. Gard

Subjects

Paclitaxel, Microtubule-associated protein, Xenopus, Mitosis, Microtubules, Xenopus laevis, Alkaloids, Microtubule, Animals, Microtubule end, Phosphorylation, biology, Cell Biology, Articles, Cell cycle, biology.organism_classification, Cell biology, Molecular Weight, Kinetics, Meiosis, Tubulin, biology.protein, Oocytes, Female, Microtubule-Associated Proteins

Abstract

We have isolated a protein factor from Xenopus eggs that promotes microtubule assembly in vitro. Assembly promotion was associated with a 215-kD protein after a 1,000-3,000-fold enrichment of activity. The 215-kD protein, termed Xenopus microtubule assembly protein (XMAP), binds to microtubules with a stoichiometry of 0.06 mol/mol tubulin dimer. XMAP is immunologically distinct from the Xenopus homologues to mammalian brain microtubule-associated proteins; however, protein species immunologically related to XMAP with different molecular masses are found in Xenopus neuronal tissues and testis. XMAP is unusual in that it specifically promotes microtubule assembly at the plus-end. At a molar ratio of 0.01 mol XMAP/mol tubulin the assembly rate of the microtubule plus-end is accelerated 8-fold while the assembly rate of the minus-end is increased only 1.8-fold. Under these conditions XMAP promotes a 10-fold increase in the on-rate constant (from 1.4 s-1.microM-1 for microtubules assembled from pure tubulin to 15 s-1.microM-1), and a 10-fold decrease in off-rate constant (from 340 to 34 s-1). Given its stoichiometry in vivo, XMAP must be the major microtubule assembly factor in the Xenopus egg. XMAP is phosphorylated during M-phase of both meiotic and mitotic cycles, suggesting that its activity may be regulated during the cell cycle.

Published

1987

306. Spatial and Temporal Changes in Early Amphibian Development

Author

Stanley R. Scharf, K.A. Butner, Steven D. Black, J.W. Newport, John C. Gerhart, and Marc W. Kirschner

Subjects

Mesoderm, biology, Ecology, Xenopus, Aster (cell biology), Cell cycle, Blastula, biology.organism_classification, Sperm, Cell biology, medicine.anatomical_structure, Cytoplasm, embryonic structures, medicine, Animal Science and Zoology, Cytokinesis

Abstract

Following fertilization in Xenopus eggs, the dorsal-ventral asymmetry of the egg is established and a rapid cell cycle is begun. In the mid to late blastula period this initial asymmetry is translated into differentiation of the dorsal mesoderm initiated by the vegetal dorsalizing center; as suggested by experiments of Nieuwkoop. About this time the cell cycle undergoes a modification coincident with several events including the onset of cell motility. We report here on experiments describing how the dorsal-ventral asymmetry is produced in the early period. In particular we discuss the role of the sperm, its associated aster, the cortex, and redistribution of cytoplasmic contents. This analysis furthers our understanding of UV effects on dorsalization and the mechanism of twinning. We report also on evidence for a cytoplasmic clock regulating the cycle of DNA synthesis and cytokinesis in early cleavage, as well as on further experiments on the mechanism of cell cycle changes in the midblastula period.

Published

1980

307. A polymer-dependent increase in phosphorylation of beta-tubulin accompanies differentiation of a mouse neuroblastoma cell line

Author

David L. Gard and Marc W. Kirschner

Subjects

Paclitaxel, Neurite, Cellular differentiation, macromolecular substances, Biology, Microtubules, Cell Line, Mice, Neuroblastoma, chemistry.chemical_compound, Alkaloids, Tubulin, Microtubule, Animals, Phosphorylation, Colcemid, Demecolcine, Cell Differentiation, Articles, Cell Biology, Molecular biology, Cell biology, Nocodazole, chemistry, biology.protein

Abstract

We have examined the phosphorylation of cellular microtubule proteins during differentiation and neurite outgrowth in N115 mouse neuroblastoma cells. N115 differentiation, induced by serum withdrawal, is accompanied by a fourfold increase in phosphorylation of a 54,000-mol-wt protein identified as a specific isoform of beta-tubulin by SDS PAGE, two-dimensional isoelectric focusing/SDS PAGE, and immunoprecipitation with a specific monoclonal antiserum. Isoelectric focusing/SDS PAGE of [35S]methionine-labeled cell extracts revealed that the phosphorylated isoform of beta-tubulin, termed beta 2, is one of three isoforms detected in differentiated N115 cells, and is diminished in amounts in the undifferentiated cells. Taxol, a drug which promotes microtubule assembly, stimulates phosphorylation of beta-tubulin in both differentiated and undifferentiated N115 cells. In contrast, treatment of differentiated cells with either colcemid or nocodazole causes a rapid decrease in beta-tubulin phosphorylation. Thus, the phosphorylation of beta-tubulin in N115 cells is coupled to the levels of cellular microtubules. The observed increase in beta-tubulin phosphorylation during differentiation then reflects developmental regulation of microtubule assembly during neurite outgrowth, rather than developmental regulation of a tubulin kinase activity.

Published

1985

308. Characteristics of the polar assembly and disassembly of microtubules observed in vitro by darkfield light microscopy

Author

K Summers and Marc W. Kirschner

Subjects

Axoneme, Polarity (international relations), biology, Macromolecular Substances, Swine, Microtubule Depolymerization Process, Brain, Cell Biology, Articles, Microtubules, Cell biology, Tubulin, Polymerization, Microtubule, biology.protein, Animals, Elongation, Metaphase

Abstract

We describe here the continuous observations of the polymerization of individual microtubules in vitro by darkfield microscopy. In homogeneous preparations we verify that polymerization can occur onto both ends of microtubules. The assembly of microtubules is polar, with one end growing at three times the rate of the other. The differential rate of elongation can be used to determine the polarity of growth off cellular nucleating centers. We show that the microtubules grow off the proximal end of ciliary axonemes at a growth rate equal to that of the slow growing end of free microtubules, while growth off the distal end proceeds at the same rate as the fast growing end. Applying this technique to microtubule growth from metaphase chromosomes isolated from HeLa and CHO cells, we demonstrate that chromosomes initiate polymerization with the fast growing end facing away from the chromosome nucleation site. The opposite ends of free microtubules show different sensitivities to microtubule depolymerizing agents such as low temperature, Ca++ or colchicine as measured directly by darkfield microscopy. The differing rates of assembly and disassembly of each end of a microtubule suggest that a difference in polarity of growth off nucleating sites could serve as one basis for regulating the polymerization of different groups of microtubules in the same cell.

Published

1979

309. Nuclear lamin LI of Xenopus laevis: cDNA cloning, amino acid sequence and binding specificity of a member of the lamin B subfamily

Author

Marc W. Kirschner, Werner W. Franke, Sandra L. Wolin, Georg Krohne, and F. D. McKeon

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, animal structures, Subfamily, Nuclear Envelope, Molecular Sequence Data, Xenopus, Biology, General Biochemistry, Genetics and Molecular Biology, Xenopus laevis, Species Specificity, Animals, Humans, Amino Acid Sequence, Cloning, Molecular, Intermediate filament, Molecular Biology, Peptide sequence, Coiled coil, Genetics, Base Sequence, Lamin Type B, integumentary system, General Immunology and Microbiology, General Neuroscience, Protein primary structure, Nuclear Proteins, DNA, Lamin Type A, biology.organism_classification, Lamins, Rats, Cell biology, embryonic structures, Nuclear lamina, Lamin, Research Article

Abstract

Lamins are karyoskeletal proteins associated with the nuclear envelope which can be divided into two groups, i.e. the type A lamins of near neutral pI and the more acidic lamins, including mammalian lamin B. We have isolated cDNA clones encoding a representative of the type B subfamily from Xenopus laevis, and have deduced its amino acid sequence from the coding portion of the approximately 2.9 kb mRNA. The polypeptide (mol. wt 66,433) is identified as a typical lamin by its homology to Xenopus human type A lamins, but detailed sequence comparison shows that LI is less related to Xenopus lamin A than the latter is to human lamin A. The conformation predicted for LI conforms to the general model of lamins and intermediate filament proteins and is characterized by an extended central alpha-helical coiled coil domain, flanked by non-alpha-helical domains, i.e. a relatively short N-terminal head and a long C-terminal tail. As in lamins A and C, the head of lamin LI is positively charged and the tail presents a similar C-terminal pentapeptide, a putative nuclear accumulation signal, a very negatively charged region and a number of short regions that are highly homologous in all lamins. However, LI differs from the type A lamins by the absence of the oligo-histidine stretch and a di-proline motif in the tail region and by a significantly lower number of identical amino acid positions.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1987

310. Interconversion of metaphase and interphase microtubule arrays, as studied by the injection of centrosomes and nuclei into Xenopus eggs

Author

Eric Karsenti, R Hubble, John W. Newport, and Marc W. Kirschner

Subjects

Microinjections, Centriole, Xenopus, Spindle Apparatus, Aster (cell biology), Biology, Microtubules, Tubulin, Microtubule, Animals, Interphase, Metaphase, Mitosis, Centrioles, Ovum, Cell Nucleus, Microtubule organizing center, Articles, Cell Biology, Chromatin, Spindle apparatus, Cell biology, Organoids, Centrosome, Female

Abstract

We have designed experiments that distinguish centrosomal , nuclear, and cytoplasmic contributions to the assembly of the mitotic spindle. Mammalian centrosomes acting as microtubule-organizing centers were assayed by injection into Xenopus eggs either in a metaphase or an interphase state. Injection of partially purified centrosomes into interphase eggs induced the formation of extensive asters. Although centrosomes injected into unactivated eggs (metaphase) did not form asters, inhibition of centrosomes is not irreversible in metaphase cytoplasm: subsequent activation caused aster formation. When cytoskeletons containing nuclei and centrosomes were injected into the metaphase cytoplasm, they produced spindle-like structures with clearly defined poles. Electron microscopy revealed centrioles with nucleated microtubules. However, injection of nuclei prepared from karyoplasts that were devoid of centrosomes produced anastral microtubule arrays around condensing chromatin. Co-injection of karyoplast nuclei with centrosomes reconstituted the formation of spindle-like structures with well-defined poles. We conclude from these experiments that in mitosis, the centrosome acts as a microtubule-organizing center only in the proximity of the nucleus or chromatin, whereas in interphase it functions independently. The general implications of these results for the interconversion of metaphase and interphase microtubule arrays in all cells are discussed.

Published

1984

311. Influence of the centrosome on the structure of nucleated microtubules

Author

Marc W. Kirschner, Louise M. Evans, and Timothy J. Mitchison

Subjects

Macromolecular Substances, Ovary, Nucleation, Centrosome cycle, Articles, Cell Biology, Aster (cell biology), Biology, Microtubules, Cell Line, Cell biology, Organoids, Microscopy, Electron, Neuroblastoma, Centrosome, Microtubule, Cricetinae, Microtubule Proteins, Animals, Basal body, Cattle, Female, Astral microtubules, Microtubule nucleation

Abstract

The capacity of the centrosome to influence the lattice structure of nucleated microtubules was studied in vitro. Brain microtubules self-assembled to give predominantly (98%) 14-protofilament microtubules. However, under exactly the same conditions of assembly they grew off of purified centrosomes from neuroblastoma cells to give mostly (82%) 13-protofilament microtubules. Thus, the nucleation sites on the centrosome constrained the microtubule lattice to yield the number of protofilaments usually found in vivo.

Published

1985

312. Induced formation of asters and cleavage furrows in oocytes ofXenopus laevis during in vitro maturation

Author

Marc W. Kirschner and Steven R. Heidemann

Subjects

Cytoplasm, Xenopus, In Vitro Techniques, Aster (cell biology), Biology, Cleavage (embryo), Botany, Cell cortex, medicine, Animals, Progesterone, Ovum, Cell Nucleus, Germinal vesicle, urogenital system, General Medicine, Oocyte, biology.organism_classification, Cell biology, In vitro maturation, medicine.anatomical_structure, embryonic structures, Oocytes, Female, Animal Science and Zoology

Abstract

We have previously reported that injection of purified basal bodies or sperm into unfertilized eggs of Xenopus laevis induced the formation of asters and irregular cleavage furrows. Fully grown oocytes were found to be unable to form asters or cleavage furrows. In this paper we show that the oocyte acquires the ability to form asters upon basal body injection at the time of germinal vesicle breakdown during in vitro maturation. Our evidence indicates that aster formation requires progesterone-stimulated changes in the oocyte and mixing of cytoplasm and germinal vesicle plasm. The ability of the oocyte to form cleavage furrows arises six to eight hours after germinal vesicle breakdown. We infer that some maturational change in the cell cortex occurs to enable the egg surface to furrow. Experiments on the relationship of aster formation to furrow initiation indicates that asters stimulate furrow formation. However, some furrowing could be induced without aster formation in mature oocytes and unfertilized eggs by an activation stimulus, showing that asters are not essential for cleavage initiation. The significance of these observations are discussed in the light of our current understanding of meiotic maturation, cell cleavage and aster growth.

Published

1978

313. Nerve growth factor-induced neurite outgrowth in PC12 cells involves the coordinate induction of microtubule assembly and assembly-promoting factors

Author

E M Shooter, Stuart C. Feinstein, David G. Drubin, and Marc W. Kirschner

Subjects

Time Factors, Neurite, Microtubule-associated protein, Adrenal Gland Neoplasms, tau Proteins, Pheochromocytoma, Microtubules, Cell Line, Mice, Microtubule, medicine, Animals, Nerve Growth Factors, Axon, Bucladesine, biology, Cell Biology, Articles, Cell biology, Kinetics, Tubulin, medicine.anatomical_structure, Nerve growth factor, nervous system, Cell culture, biology.protein, Microtubule Proteins, Microtubule-Associated Proteins, medicine.drug

Abstract

Nerve growth factor (NGF) regulates the microtubule-dependent extension and maintenance of axons by some peripheral neurons. We show here that one effect of NGF is to promote microtubule assembly during neurite outgrowth in PC12 cells. Though NGF causes an increase in total tubulin levels, the formation of neurites and the assembly of microtubules follow a time course completely distinct from that of the tubulin induction. The increases in microtubule mass and neurite extension closely parallel 10- and 20-fold inductions of tau and MAP1, proteins shown previously to promote microtubule assembly in vitro. When NGF is removed from PC12 cells, neurites disappear, microtubule mass decreases, and both microtubule-associated proteins return to undifferentiated levels. These data suggest that the induction of tau and MAP1 in response to NGF promotes microtubule assembly and that these factors are therefore key regulators of neurite outgrowth.

Published

1985

314. The timing of early developmental events in Xenopus

Author

J. Newport, Marc W. Kirschner, and John C. Gerhart

Subjects

Xenopus, Anatomy, Blastomere, Biology, Cleavage (embryo), biology.organism_classification, Cell biology, Midblastula, Gastrulation, medicine.anatomical_structure, Cytoplasm, Genetics, medicine, Nucleus

Abstract

The eggs of animals undergo carefully timed sequences of events controlled by endogenous timing mechanisms. Recent studies in Xenopus have revealed three timing mechanisms based on different principles. The early synchronous cleavage cycle is based on a cytoplasmic oscillator present in each blastomere, which can operate independently of the nuclear events which it controls. The cessation of synchronous cleavage at the midblastula transition engages a new developmental program. The timing of this transition depends on the nucleus-to-cytoplasm volume ratio, which is sensed by the titration of some material by the nucleus. Following the midblastula transition is gastrulation, whose timing is sensed not by the nucleus to cytoplasm ratio but by time elapsed since fertilization. The Xenopus egg therefore possesses long-term timing mechanisms which initiate and engage new developmental programs.

Published

1985

315. Autoimmune response directed against conserved determinants of nuclear envelope proteins in a patient with linear scleroderma

Author

Frank McKeon, Kimie Fukuyama, Denny L. Tuffanelli, and Marc W. Kirschner

Subjects

Adult, Nuclear Envelope, Fluorescent Antibody Technique, P70-S6 Kinase 1, Biology, Autoimmune Diseases, Immunoenzyme Techniques, Epitopes, Scleroderma, Localized, Humans, Linear Scleroderma, Autoantibodies, Skin, Multidisciplinary, integumentary system, Autoantibody, Membrane Proteins, Nuclear matrix, Molecular biology, Embryonic stem cell, Antigens, Surface, biology.protein, Nuclear lamina, Female, Antibody, Clone (B-cell biology), Research Article

Abstract

We have studied the autoantibodies in the serum of a patient with linear scleroderma that specifically recognize the nuclear envelope of cultured cells. These antibodies bind to conserved determinants of nuclear lamins, the predominant mammalian nuclear envelope proteins. Of the three mammalian nuclear lamin proteins (970, P68, and P60), only P70 and P60 bind the autoantibodies. In addition, two proteins of the Drosophila embryonic nuclear matrix, P70 and P68, bind these autoantibodies. We have used nuclear matrices to isolate the autoantibodies from the patient's serum that react to the nuclear lamins. At least three different IgG heavy chains were found to be involved in this autoimmune response to nuclear lamins, indicating that this response is not due to the expansion of a single B-cell clone.

Published

1983

316. The polarity and stability of microtubule capture by the kinetochore

Author

Marc W. Kirschner and P Huitorel

Subjects

biology, Cell-Free System, Kinetochore, Centromere, Mitosis, Cell Biology, Articles, Spindle Apparatus, In Vitro Techniques, Microtubules, Chromosomes, Cell biology, Spindle apparatus, Tubulin, Adenosine Triphosphate, Microtubule, Cricetinae, biology.protein, Animals, Astral microtubules, Metaphase, Protein Binding

Abstract

We have studied the capture of microtubules by isolated metaphase chromosomes, using microtubules stabilized with taxol and marked with biotin tubulin to distinguish their plus and minus ends. The capture reaction is reversible at both the plus and minus ends. The on rate of capture is the same for both polarities but the dissociation rate from the kinetochore is seven times slower with microtubules captured at their plus ends than those captured at their minus ends. At steady state this disparity in off rates leads to the gradual replacement of microtubules captured at their minus ends with those captured at their plus ends. These results suggest that the kinetochore makes a lateral attachment near the end of the microtubule in the initial capture reaction and shows a structural specificity that may be important in proper bipolar attachment of the chromosome to the spindle.

Published

1988

317. Conservation of microtubule associated proteins. Isolation and characterization of tau and the high molecular weight microtubule associated protein from chicken brain and from mouse fibroblasts and comparison to the corresponding mammalian brain proteins

Author

Don W. Cleveland, Bruce M. Spiegelman, and Marc W. Kirschner

Subjects

chemistry.chemical_classification, Cell type, Microtubule-associated protein, Cell, Peptide, Cell Biology, Biology, Biochemistry, Virus, 3T3 cells, Cell biology, medicine.anatomical_structure, chemistry, Microtubule, medicine, biology.protein, Antibody, Molecular Biology

Abstract

Using ability to stimulate tubulin assembly as an assay, we have purified a chicken brain associated protein under conditions identical to those used to isolate porcine brain 7 protein. Chicken brain T has a molecular weight, sedimentation coefficient, and amino acid composition very similar to porcine r. Both r proteins are microheterogeneous and yield very similar and characteristic one-dimensional peptide maps. We have also isolated 7 and a high molecular weight protein from simian virus 40-transformed 3T3 cells by copolymerization of labeled cellular proteins with carrier hog brain microtubules. The simian virus 3T3 cell proteins co-electrophorese with the corresponding hog brain associated proteins and yield peptide maps which are indistinguishable from the hog protein patterns. These findings confirm the presence of 7 and a high molecular weight microtubule associated protein from a nonneuronal source and demonstrate that both are present in a single cell type, as originally suggested by immunofluorescent localization with antibodies against the hog brain proteins. Moreover, the similarities of the T polypeptides from the three sources studied (hog brain, chicken brain, and mouse fibroblast) imply that T is a widely distributed and conserved microtubule protein. The similarities between the high molecular weight associated proteins from hog brain and mouse fibroblast suggest that they, too, are widely distributed.

Published

1979

318. The Presence of Fibroblast Growth Factor in the Frog Egg: Its Role as a Natural Mesoderm Inducer

Author

Thomas M. Palisi, David Kimelman, Judith A. Abraham, Marc W. Kirschner, and Tapio Haaparanta

Subjects

Mesoderm, animal structures, Blotting, Western, Molecular Sequence Data, Basic fibroblast growth factor, Xenopus, Biology, Fibroblast growth factor, FGF and mesoderm formation, Xenopus laevis, chemistry.chemical_compound, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, Multidisciplinary, Embryo, DNA, Blotting, Northern, biology.organism_classification, Molecular biology, Actins, Fibroblast Growth Factors, medicine.anatomical_structure, Gene Expression Regulation, Neurula, chemistry, embryonic structures, Oocytes, DNA Probes, NODAL

Abstract

A complementary DNA clone corresponding to a 4.2-kilobase transcript that is present in the Xenopus oocyte and newly transcribed in the neurula stages of development has been isolated. This messenger RNA encodes a 155-amino acid protein that is 84% identical to the human basic fibroblast growth factor (bFGF). When expressed in Escherichia coli and purified, the Xenopus FGF induced mesoderm in animal cell blastomeres as measured by muscle actin expression. Immunoblots with an antibody to a Xenopus FGF peptide show that the oocyte and early embryo contain a store of the FGF polypeptide at high enough concentrations to induce mesoderm. The presence of FGF in the oocyte, together with the apparent lack of a secretory signal sequence in the protein, suggest that the regulation of mesoderm induction may involve novel mechanisms that occur after the translation of FGF.

Published

1988

319. Spatial and Temporal Changes in the Amphibian Egg

Author

John C. Gerhart and Marc W. Kirschner

Subjects

Human fertilization, Meiosis, Cell division, Embryo, Blastomere, Biology, Cell cycle, General Agricultural and Biological Sciences, Mitosis, Metaphase, Cell biology

Abstract

Early development in vertebrates encompasses a period of rapid cell division and regional differentiation. The egg goes from a single radially symmetric cell, arrested in its cell cycle, to an embryo composed of many rapidly proliferating cells organized spatially along lines that presage the overall topography of the adult. During this time, a pattern of division must be imposed on the individual blastomeres, and areas of the embryo that must be delineated will develop into specific tissues. In this review, we will consider some of the events immediately following fertilization that are important to the development of the amphibian embryo. We will be concerned with problems of organization, both spatial and temporal, and specifically with the mechanisms that regulate the timing of the cell cycle and determine the dorsal-ventral axis of the embryo. The unfertilized Xenopus egg is arrested in second meiotic metaphase, where no DNA synthesis is occurring (see review by Gerhart 1980). After fertilization, the egg undergoes a series of rapid divisions lasting about 25 minutes, with alternate periods of DNA synthesis and mitosis. During this time, the cell cycle appears to be a rudimentary one, having only a mitotic phase and a DNA synthesis phase, with little if any RNA synthesis (Bacharova and Davidson 1966, Brown and Littna 1964, Graham and Morgan 1966). The cleavages during this period are metachronous (Hara 1977

Published

1981

320. Maturation-promoting factor induces nuclear envelope breakdown in cycloheximide-arrested embryos of Xenopus laevis

Author

Marc W. Kirschner, Ryn Miake-Lye, and John W. Newport

Subjects

Nuclear Envelope, Cleavage Stage, Ovum, Maturation-Promoting Factor, Xenopus, Maturation promoting factor, Mitosis, Cycloheximide, Xenopus laevis, chemistry.chemical_compound, medicine, Animals, Growth Substances, Interphase, reproductive and urinary physiology, Genetics, Dose-Response Relationship, Drug, biology, urogenital system, DNA, Articles, Cell Biology, Oocyte, biology.organism_classification, Cell biology, Cell nucleus, medicine.anatomical_structure, chemistry, biology.protein, Nuclear lamina, Cytokinesis

Abstract

We have studied the effect of maturation-promoting factor (MPF) on embryonic nuclei during the early cleavage stage of Xenopus laevis development. When protein synthesis is inhibited by cycloheximide during this stage, the embryonic cell cycle arrests in an artificially produced G2 phase-like state, after completion of one additional round of DNA synthesis. Approximately 100 nuclei can be arrested in a common cytoplasm if cytokinesis is first inhibited by cytochalasin B. Within 5 min after injection of MPF into such embryos, the nuclear envelope surrounding each nucleus disperses, as determined histologically or by immunofluorescent staining of the nuclear lamina with antilamin antiserum. The breakdown of the nuclear envelope occurs at levels of MPF comparable to or slightly lower than those required for oocyte maturation. Amplification of MPF activity, however, does not occur in the arrested egg as it does in the oocyte. These results suggest that MPF can act to advance interphase nuclei into the first events of mitosis and show that the nuclear lamina responds rapidly to MPF.

Published

1983

321. Microtubule assembly nucleated by isolated centrosomes

Author

Timothy J. Mitchison and Marc W. Kirschner

Subjects

Multidisciplinary, Cell-Free System, Polymers, Centrosome cycle, Microtubule organizing center, Biology, Microtubules, Spindle pole body, Cell biology, Spindle apparatus, Mice, Tubulin, Centrosome, Microtubule, Morphogenesis, Animals, Astral microtubules, Centrioles, Protein Binding, Microtubule nucleation

Abstract

Microtubules are involved in the morphogenesis of most cells and are the structural basis of the mitotic spindle. We report here that purified centrosomes nucleate the assembly of microtubules with unusual dynamic properties. This may have important implications for the mechanism by which microtubule arrays are organized and stabilized in cells.

Published

1984

322. Filament organization revealed in platinum replicas of freeze-dried cytoskeletons

Author

John E. Heuser and Marc W. Kirschner

Subjects

Articles, macromolecular substances, Cell Biology, Biology, Microtubules, Actins, Cell biology, Protein filament, Mice, Microscopy, Electron, Freeze Drying, Treadmilling, Intermediate filament organization, Tubulin, Microtubule, Cytoplasm, Freezing, Animals, Intermediate filament, Cytoskeleton, Chickens, High voltage electron microscopy

Abstract

This report presents the appearance of rapidly frozen, freeze-dried cytoskeletons that have been rotary replicated with platinum and viewed in the transmission electron microscope. The resolution of this method is sufficient to visualize individual filaments in the cytoskeleton and to discriminate among actin, microtubules, and intermediate filaments solely by their surface substructure. This identification has been confirmed by specific decoration with antibodies and selective extraction of individual filament types, and correlated with light microscope immunocytochemistry and gel electrophoresis patterns. The freeze-drying preserves a remarkable degree of three-dimensionality in the organization of these cytoskeletons. They look strikingly similar to the meshwork of strands or "microtrabeculae" seen in the cytoplasm of whole cells by high voltage electron microscopy, in that the filaments form a lattice of the same configutation and with the same proportions of open area as the microtrabeculae seen in whole cells. The major differences between these two views of the structural elements of the cytoplasmic matrix can be attributed to the effects of aldehyde fixation and dehydration. Freeze-dried cytoskeletons thus provide an opportunity to study--at high resolution and in the absence of problems caused by chemical fixation--the detailed organization of filaments in different regions of the cytoplasm and at different stages of cell development. In this report the pattern of actin and intermediate filament organization in various regions of fully spread mouse fibroblasts is described.

Published

1980

323. Direct observation of steady-state microtubule dynamics

Author

David Kristofferson, Marc W. Kirschner, and Timothy J. Mitchison

Subjects

Alkanesulfonates, Glycerol, Bulk polymerization, Polymers, Kinetics, macromolecular substances, Buffers, Biology, Microtubules, Piperazines, Tubulin, Microtubule, Animals, Cytoskeleton, Articles, Cell Biology, Treadmilling, Alkanesulfonic Acids, Biochemistry, Polymerization, Biophysics, biology.protein, Cattle, Steady state (chemistry)

Abstract

Different types of unusual dynamic behavior have been reported for steady-state microtubules. While almost all earlier reports relied on kinetic measurements of bulk polymerization, we have directly visualized the steady-state addition of subunits to individual microtubules through the use of tubulin derivitized with biotin. Biotinylated tubulin was used both as an internal "seed" for polymerization and as a marker for assembly onto the ends of microtubules composed of purified tubulin. Biotinylated segments were distinguished from unmodified tubulin by double-label immunofluorescence. Microtubule lengths, number concentrations, and segment lengths have been monitored with time at steady state under two buffer conditions. The results indicate that the microtubule steady state under these conditions is a balance between a majority of slowly growing microtubules and a minority of rapidly depolymerizing ones as described by the "dynamic instability" model (Mitchison T., and M. Kirschner, 1984, Nature (Lond.)., 312:232-242). Microtubules show no evidence of treadmilling; instead most show progressive growth off both ends at steady state. Although solvent conditions markedly influence the growth rates, qualitatively the behavior is unchanged.

Published

1986

324. Cytoskeletal dynamics and nerve growth

Author

Marc W. Kirschner and Timothy J. Mitchison

Subjects

Neurons, business.industry, Chemistry, General Neuroscience, Cellular differentiation, Dynamics (mechanics), Cell Differentiation, Microtubules, Actins, Axons, Cell biology, Text mining, Animals, business, Cytoskeleton

Published

1988

325. A major developmental transition in early xenopus embryos: I. characterization and timing of cellular changes at the midblastula stage

Author

Marc W. Kirschner and John W. Newport

Subjects

DNA Replication, Blastomeres, Cytoplasm, animal structures, Transcription, Genetic, Cell division, Somatic cell, Xenopus, Biology, Cleavage (embryo), General Biochemistry, Genetics and Molecular Biology, Midblastula, Xenopus laevis, Cell Movement, Animals, Cell Nucleus, Genetics, Age Factors, Blastomere, biology.organism_classification, Cell biology, Blastocyst, Gene Expression Regulation, Fertilization, embryonic structures, RNA, Maternal to zygotic transition, Cell Division

Abstract

The Xenopus embryo undergoes 12 rapid synchronous cleavages followed by a period of slower asynchronous divisions more typical of somatic cells. This change in cell cleavage has been termed the midblastula transition (MBT). We show that at the MBT the blastomeres become motile and transcriptionally active for the first time. We have investigated the timing of the MBT and found that it does not depend on cell division, on time since fertilization or on a counting mechanism involving the sequential modification of DNA. Rather, the timing of the MBT depends on reaching a critical ratio of nucleus to cytoplasm. We view the MBT as a consequence of the titration of some substance, originally present in the egg, by the exponentially increasing nuclear material. When this substance is exhausted a new cell program is engaged, leading to the acquisition of several new cell properties.

Published

1982

326. Monoclonal antibodies specific for thiophosphorylated proteins recognize Xenopus MPF

Author

Talma Scherson, Marc W. Kirschner, and Martha S. Cyert

Subjects

medicine.drug_class, Immunoprecipitation, Maturation-Promoting Factor, Maturation promoting factor, Xenopus, Monoclonal antibody, Mice, Xenopus laevis, Adenosine Triphosphate, Antibody Specificity, Immunochemistry, medicine, Animals, Sulfhydryl Compounds, Growth Substances, Immunoadsorption, Molecular Biology, Immunosorbent Techniques, reproductive and urinary physiology, Ovum, Mice, Inbred BALB C, biology, urogenital system, Antibodies, Monoclonal, Cell Biology, Phosphoproteins, biology.organism_classification, Biochemistry, Mesothelin, Phosphoprotein, biology.protein, Female, Antibody, Developmental Biology

Abstract

Maturation promoting factor, (MPF), is a crucial regulatory component of the eukaryotic cell cycle. Though it is ubiquitous, MPF has been difficult to purify to homogeneity, and little is known about its physical properties or composition. In an attempt to further characterize and purify this protein, we have isolated five monoclonal antibodies that immunoadsorb MPF activity, and inhibit the activity in solution. However, all the antibodies recognize many proteins in partially purified MPF. We have shown that antibody binding is dependent on previous exposure of the preparation to ATP gamma S. This suggests that the antibodies specifically recognize thiophosphoproteins, although not all thiophosphorylated proteins in MPF are immunoprecipitated. Using one antibody, MPF was partially purified by immunoadsorption chromatography. These experiments provide the first evidence that MPF from Xenopus is a phosphoprotein that becomes thiophosphorylated upon addition of ATP gamma S.

Published

1988

327. The redistribution of a conserved nuclear envelope protein during the cell cycle suggests a pathway for chromosome condensation

Author

Frank McKeon, Denny L. Tuffanelli, Sumire Kobayashi, and Marc W. Kirschner

Subjects

Chromosomal Proteins, Non-Histone, Nuclear Envelope, Biology, Chromosomes, General Biochemistry, Genetics and Molecular Biology, Cell Line, chemistry.chemical_compound, Prophase, Cricetinae, Animals, Humans, Telophase, Interphase, Metaphase, Cell Nucleus, Chinese hamster ovary cell, Chromosome, Cell cycle, Molecular biology, Lamins, Cell biology, Drosophila melanogaster, Nucleoproteins, chemistry, Premature chromosome condensation, Female, DNA, HeLa Cells

Abstract

We describe a human autoantiserum that recognizes specific determinants present both on the nuclear envelope of interphase cells and the periphery of metaphase chromosomes. These determinants are highly conserved through evolution and present on a protein with an apparent molecular weight of 33,000. This 33 kd protein, which we call "perichromin," appears to be directly or indirectly bound to both interphase and metaphase DNA. Studies of the transformation of perichromin from a nuclear envelope association to a perichromosomal position during prophase suggests a pathway for chromosome organization throughout the cell cycle.

Published

1984

328. Properties of the kinetochore in vitro. II. Microtubule capture and ATP-dependent translocation

Author

Marc W. Kirschner and Timothy J. Mitchison

Subjects

Movement, Centromere, Chromosomal translocation, Spindle Apparatus, In Vitro Techniques, Microtubules, Chromosomes, chemistry.chemical_compound, Adenosine Triphosphate, Cricetulus, Tubulin, Microtubule, Cricetinae, Morphogenesis, Animals, Prometaphase, biology, Kinetochore, Ovary, Articles, Cell Biology, biology.organism_classification, Cell biology, Kinetics, chemistry, biology.protein, Female, Adenosine triphosphate

Abstract

We have studied the interaction of preformed microtubules (MTs) with the kinetochores of isolated chromosomes. This reaction, which we call MT capture, results in MTs becoming tightly bound to the kinetochore, with their ends capped against depolymerization. These observations, combined with MT dynamic instability, suggest a model for spindle morphogenesis. In addition, ATP appears to mobilize dynamic processes at captured MT ends. We used biotin-labeled MT seeds to follow assembly dynamics at the kinetochore. In the presence of ATP and unlabeled tubulin, labeled MT segments translocate away from the kinetochore by polymerization of subunits at the attached end. We have termed this reaction proximal assembly. Further studies demonstrated that translocation could be uncoupled from MT assembly. We suggest that the kinetochore contains an ATPase activity that walks along the MT lattice toward the plus end. This activity may be responsible for the movement of chromosomes away from the pole in prometaphase.

Published

1985

329. Induction of early mitotic events in a cell-free system

Author

Ryn Miake-Lye and Marc W. Kirschner

Subjects

Embryo, Nonmammalian, Nuclear Envelope, T-Lymphocytes, Xenopus, Maturation-Promoting Factor, Maturation promoting factor, Mitosis, General Biochemistry, Genetics and Molecular Biology, Cell Line, Prophase, Meiosis, Cricetinae, Animals, Phosphorylation, Growth Substances, Interphase, reproductive and urinary physiology, Cell-Free System, biology, urogenital system, Ovary, Rats, Inbred Strains, biology.organism_classification, Chromatin, Lamins, Rats, Cell biology, Kinetics, Nucleoproteins, biology.protein, Nuclear lamina, Female, Lamin

Abstract

Maturation promoting factor (MPF) has been shown to induce meiosis or mitosis when injected into Xenopus oocytes and embryos. We show here that early events of mitosis, chromatin condensation and nuclear envelope breakdown, are induced by MPF in somatic interphase nuclei incubated in a cell-free extract of Xenopus eggs. These events occur rapidly and synchronously in response to MPF and are reversed when MPF activity is diminished. Using this cell-free system, we show that major structural proteins of the nuclear lamina, lamins A and C, are hyperphosphorylated within 15 min after addition of MPF, followed by a gradual depolymerization of the nuclear lamina until the nuclear envelope breaks down 30 min later. These results show that MPF induces mitotic events in vitro, and that phosphorylation of the lamins precedes disassembly of the nuclear lamina and could act to trigger nuclear envelope breakdown.

Published

1985

330. Purification of tau, a microtubule-associated protein that induces assembly of microtubules from purified tubulin

Author

Shu-Ying Hwo, Marc W. Kirschner, and Don W. Cleveland

Subjects

Molecular mass, biology, Microtubule-associated protein, Proteins, macromolecular substances, Chromatography, Agarose, Microtubules, Molecular Weight, chemistry.chemical_compound, Tubulin, chemistry, Biochemistry, Structural Biology, Microtubule, biology.protein, Agarose, Electrophoresis, Polyacrylamide Gel, Microtubule-Associated Protein 4, Molecular Biology, Polyacrylamide gel electrophoresis, Glycoproteins, Microtubule nucleation

Abstract

Tau, a microtubule-associated protein which copurifies with tubulin through successive cycles of polymerization and depolymerization, has been isolated from tubulin by phosphocellulose chromatography and purified to near homogeneity. The purified protein is seen to migrate during electrophoresis on acrylamide gels as four closely spaced bands of apparent molecular weights between 55,000 and 62,000. Specific activity for induction of microtubule formation from purified tubulin has been assayed by quantitative electron microscopy and is seen to be enhanced three- to fourfold in the purified tau when compared with the unfractionated microtubule-associated proteins. Nearly 90% of available tubulin at 1 mg/ml is found to be polymerizable into microtubules with elevated levels of tau. Moreover, the critical concentration for polymerization of the reconstituted tau + tubulin system is seen to be a function of tau concentration and may be lowered to as little as 30 μg of tubulin per ml. Under depolymerizing conditions, 50% of the tubulin at only 1 mg/ml may be driven into ring structures. A separate purification procedure for isolation of tau directly from cell extracts has been developed and data from this purification suggest that tau is present in the extract in roughly the same proportion to tubulin as is found in microtubules purified by cycles of assembly and disassembly. Tau is sufficient for both nucleation and elongation of microtubules from purified tubulin and hence the reconstituted tau + tubulin system defines a complete microtubule assembly system under standard buffer conditions. In an accompanying paper (Cleveland et al. , 1977) the physical and chemical properties of tau are discussed and a model by which tau may function in microtubule assembly is presented.

Published

1977

331. Microtubule dynamics in interphase cells

Author

Eric Schulze and Marc W. Kirschner

Subjects

Centriole, Immunoelectron microscopy, Population, Fluorescent Antibody Technique, Biology, Kidney, Microtubules, Cell Line, Tubulin, Microtubule, Chlorocebus aethiops, Animals, education, Interphase, Mitosis, Centrioles, Microtubule nucleation, education.field_of_study, Articles, Cell Biology, Fibroblasts, Cell biology, Kinetics, Microscopy, Electron, Centrosome, biology.protein

Abstract

The sites of microtubule growth and the kinetics of elongation have been studied in vivo by microinjection of biotin-labeled tubulin and subsequent visualization with immunocytochemical probes. Immunofluorescence and immunoelectron microscopy demonstrate that injected biotin-labeled subunits are incorporated into new segments of growth which are contiguous with unlabeled microtubules. Rapid incorporation occurs by elongation of existing microtubules and new nucleation off the centrosome. The growth rate is 3.6 micron/min and is independent of the concentration of injected labeled tubulin. This rate of incorporation together with turnover of existing microtubules leads to approximately 80% exchange in 15 min. The observed kinetics and pattern of microtubule turnover allow for an evaluation of the relevance of several in vitro models for steady-state dynamics to the in vivo situation. We have also observed a substantial population of quasi-stable microtubules that does not exchange subunits as rapidly as the majority of microtubules and may have specialized functions in the cell.

Published

1986

332. Nucleotide binding and phosphorylation in microtubule assembly in vitro

Author

Marc W. Kirschner and Stephen M. Penningroth

Subjects

GTP', Allosteric regulation, Guanosine Monophosphate, macromolecular substances, Microtubules, Microtubule polymerization, Tubulin, Structural Biology, Microtubule, Magnesium, Nucleotide, Binding site, Molecular Biology, Glycoproteins, chemistry.chemical_classification, Guanylyl Imidodiphosphate, biology, Hydrolysis, Nucleoside-diphosphate kinase, Kinetics, Microscopy, Electron, chemistry, Biochemistry, Nucleoside-Diphosphate Kinase, biology.protein, Guanosine Triphosphate, Allosteric Site

Abstract

Two non-hydrolyzable analogs of GTP, guanylyl-β,γ-methylene diphosphonate and guanylyl imidodiphosphate, have been found to induce rapid and efficient microtubule assembly in vitro by binding at the exchangeable site (E-site) on tubulin. Characterization of microtubule polymerization by several criteria, including polymerization kinetics, nucleotide binding to depolymerized and polymerized microtubules, and microtubule stability, reveals strong similarities between microtubule assembly induced by GTP and non-hydrolyzable GTP analogs. Nucleoside triphosphates which bind weakly or not at all to tubulin, such as ATP, UTP and CTP, are shown to induce microtubule assembly by means of a nucleoside diphosphate kinase (NDP-kinase, EC 2.7.4.6.) activity which is not intrinsic to tubulin. The NDP-kinase mediates microtubule polymerization by phosphorylating tubulin-bound GDP in situ at the E-site. Although hydrolysis of exchangeably bound GTP occurs, it is found to be uncoupled from the polymerization reaction. The non-exchangeable nucleotide binding site on tubulin (N-site) is not directly involved in microtubule assembly in vitro . The N-site is shown to contain almost exclusively GTP which is not hydrolyzed during microtubule assembly. A scheme is presented in which GTP acts as an allosteric effector at the E-site during microtubule assembly in vitro .

Published

1977

333. Evidence for a functional role of RNA in centrioles

Author

Greta Sander, Steven R. Heidemann, and Marc W. Kirschner

Subjects

Centriole, Xenopus, Mitosis, Microtubules, General Biochemistry, Genetics and Molecular Biology, Ribonucleases, Microtubule, Botany, Animals, Basal body, Trypsin, Ovum, biology, Tetrahymena pyriformis, Chlamydomonas, Tetrahymena, Proteolytic enzymes, RNA, biology.organism_classification, Cell biology, Organoids, biology.protein, Female, Pancreatic ribonuclease

Abstract

Basal bodies, purified from Chlamydomonas and Tetrahymena, were exposed to various enzymatic treatments and then assayed for their ability to nucleate aster formation upon injection into eggs of Xenopus laevis. Untreated basal bodies injected into frog eggs act as centrioles and induce the formation of asters. The aster-inducing activity of basal bodies was eliminated by treatment with proteolytic enzymes and ribonucleases. Aster-inducing activity was not affected by DNAse and a number of other enzymes. The effect of proteolytic digestion on aster-inducing activity appeared to be directly correlated with the degree of structural damage to the basal body. Low concentrations of pancreatic ribonuclease A, ribonuclease T1, and S1 nuclease also completely abolished aster-inducing activity, although these enzymes had no effect on basal body structure. Ribonuclease-treated basal bodies remained capable of supporting microtubule elongation in vitro. Preliminary evidence indicates that basal bodies from Chlamydomonas and Tetrahymena contain about 5 x 10(-16) g of RNA which co-band with basal bodies and aster-inducing activity by equilibrium density gradient sedimentation. We conclude first, that centrioles contain RNA which is required for initiation of aster formation, and second, that the centriole activity or ability to assemble a mitotic aster is separable from the basal body activity, or ability to serve directly as a template for microtubule growth.

Published

1977

334. Turnover of tubulin and the N site GTP in chinese hamster ovary cells

Author

Marc W. Kirschner, Bruce M. Spiegelman, and Stephen M. Penningroth

Subjects

GTP', Swine, Nerve Tissue Proteins, macromolecular substances, Microtubules, General Biochemistry, Genetics and Molecular Biology, Cell Line, Cricetulus, Tubulin, Microtubule, Cricetinae, Mole, Animals, Nucleotide, Glycoproteins, Gel electrophoresis, chemistry.chemical_classification, biology, Hydrolysis, Chinese hamster ovary cell, Ovary, Brain, Molecular biology, Biochemistry, chemistry, biology.protein, Female, Guanosine Triphosphate, Intracellular

Abstract

Radioactively labeled tubulin from Chinese hamster ovary (CHO) cells can be isolated by copolymerization with nonradioactive porcine brain microtubule protein. 75% of the soluble tubulin in CHO extracts co-polymerizes with the porcine protein through several cycles, without preferential loss of either CHO or porcine subunits. After phosphocellulose chromatography of the co-polymerized microtubules, the CHO tubulin is radiochemically homogeneous, as judged by SDS-polyacrylamide gel electrophoresis. CHO tubulin purified in this way has 1 mole of nucleotide per mole of protein noncovalently bound at the non-exchangeable or N site. Thin-layer chromatography indicates that the N site nucleotide is entirely ribo-GTP. Label and chase experiments show that the N site GTP exchanges intracellularly with a half-time of 33 hr in growing cells which have a generation time of 17 hr, while the tubulin poly-peptides are degraded with a half-time of 48 hr. Intracellular hydrolysis of the γ-phosphate of the N site nucleotide can be detected but occurs very slowly, with a half-time of 24 hr. These results suggest that the N site nucleotide may function in vivo as a stable structural co-factor of the tubulin molecule and render improbable the possibility that it has a regulatory role in microtubule assembly.

Published

1977

335. Cell cycle dynamics of an M-phase-specific cytoplasmic factor in Xenopus laevis oocytes and eggs

Author

Marc W. Kirschner, Wu M, and John C. Gerhart

Subjects

Male, Xenopus, Maturation-Promoting Factor, Maturation promoting factor, Mitosis, Vinblastine, chemistry.chemical_compound, medicine, Animals, Cycloheximide, Growth Substances, Egtazic Acid, Metaphase, reproductive and urinary physiology, Ovum, Genetics, Germinal vesicle, biology, urogenital system, Nocodazole, Cell Cycle, Articles, Cell Biology, M-Phase Promoting Factor, biology.organism_classification, Oocyte, Cell biology, Meiosis, medicine.anatomical_structure, chemistry, Fertilization, Oocytes, biology.protein, Benzimidazoles, Female, Colchicine

Abstract

We have examined the regulation of maturation-promoting factor (MPF) activity in the mitotic and meiotic cell cycles of Xenopus laevis eggs and oocytes. To this end, we developed a method for the small scale extraction of eggs and oocytes and measured MPF activity in extracts by a dilution end point assay. We find that in oocytes, MPF activity appears before germinal vesicle breakdown and then disappears rapidly at the end of the first meiotic cycle. In the second meiotic cycle, MPF reappears before second metaphase, when maturation arrests. Thus, MPF cycling coincides with the abbreviated cycles of meiosis. When oocytes are induced to mature by low levels of injected MPF, cycloheximide does not prevent the appearance of MPF at high levels in the first cycle. This amplification indicates that an MPF precursor is present in the oocyte and activated by posttranslational means, triggered by the low level of injected MPF. Furthermore, MPF disappears approximately on time in such oocytes, indicating that the agent for MPF inactivation is also activated by posttranslational means. However, in the absence of protein synthesis, MPF never reappears in the second meiotic cycle. Upon fertilization or artificial activation of normal eggs, MPF disappears from the cytoplasm within 8 min. For a period thereafter, the inactivating agent remains able to destroy large amounts of MPF injected into the egg. It loses activity just as endogenous MPF appears at prophase of the first mitotic cycle. The repeated reciprocal cycling of MPF and the inactivating agent during cleavage stages is unaffected by colchicine and nocodazole and therefore does not require the effective completion of spindle formation, mitosis, or cytokinesis. However, MPF appearance is blocked by cycloheximide applied before mitosis; and MPF disappearance is blocked by cytostatic factor. In all these respects, MPF and the inactivating agent seem to be tightly linked to, and perhaps participate in, the cell cycle oscillator previously described for cleaving eggs of Xenopus laevis (Hara, K., P. Tydeman, and M. Kirschner, 1980, Proc. Natl. Acad. Sci. USA, 77:462-466).

Published

1984

336. Role of the centrosome in organizing the interphase microtubule array: properties of cytoplasts containing or lacking centrosomes

Author

Timothy J. Mitchison, Marc W. Kirschner, Eric Karsenti, and S Kobayashi

Subjects

Cytoplasm, Centrosome cycle, Biology, Microtubules, Mice, chemistry.chemical_compound, Tubulin, Microtubule, Cell Adhesion, Animals, Interphase, Cells, Cultured, Centrioles, Nocodazole, Microtubule Depolymerization Process, Microtubule organizing center, Articles, Cell Biology, Cell biology, Organoids, Kinetics, chemistry, Centrosome, biology.protein, Benzimidazoles, Astral microtubules, Protein Binding

Abstract

To study the role of the centrosome in microtubule organization in interphase cells, we developed a method for obtaining cytoplasts (cells lacking a nucleus) that did or did not contain centrosomes. After drug-induced microtubule depolymerization, cytoplasts with centrosomes made from sparsely plated cells reconstituted a microtubule array typical of normal cells. Under these conditions cytoplasts without centrosomes formed only a few scattered microtubules. This difference in degree of polymerization suggests that centrosomes affect not only the distribution but the amount of microtubules in cells. To our surprise, the extent of microtubules assembled increased with the cell density of the original culture. At confluent density, cytoplasts without centrosomes had many microtubules, equivalent to cytoplasts with centrosomes. The additional microtubules were arranged peripherally and differed from the centrosomal microtubules in their sensitivity to nocodazole. These and other results suggest that the centrosome stabilizes microtubules in the cell, perhaps by capping one end. Microtubules with greater sensitivity to nocodazole arise by virtue of change in the growth state of the cell and may represent free or uncapped polymers. These experiments suggest that the spatial arrangement of microtubules may change by shifting the total tubulin concentration or the critical concentration for assembly.

Published

1984

337. Regulation of MPF activity in vitro

Author

Martha S. Cyert and Marc W. Kirschner

Subjects

Maturation-Promoting Factor, Phosphatase, Maturation promoting factor, Xenopus, General Biochemistry, Genetics and Molecular Biology, Phosphates, Xenopus laevis, Protein Phosphatase 1, Phosphoprotein Phosphatases, Animals, Homeostasis, Protein phosphorylation, Phosphorylation, Growth Substances, reproductive and urinary physiology, biology, urogenital system, Cell Cycle, Protein phosphatase 1, Cell cycle, biology.organism_classification, In vitro, Molecular Weight, Biochemistry, Oocytes, biology.protein, Female, Protein Processing, Post-Translational

Abstract

We have developed a soluble, cell-free system from premeiotic Xenopus oocytes that executes the post-translational activation of a precursor form of maturation promoting factor (MPF). We have distinguished at least two components of this ATP-dependent reaction: pre-MPF, a precursor to MPF that activates independently of added MPF and whose apparent molecular weight changes from 400 kd to 260 kd upon activation; and INH, an inhibitor of pre-MPF activation that confers MPF dependence on the reaction. We present evidence suggesting that INH is a phosphatase and that the activation of pre-MPF occurs via phosphorylation. INH activity itself seems to be regulated by another phosphatase, protein phosphatase-1. We have directly examined the pattern of protein phosphorylation during the activation reaction and have found 92 and 140 kd proteins whose phosphorylation increases when MPF activity appears. This system makes possible a direct examination of the regulation of MPF activity during the cell cycle.

Published

1988

338. Number and evolutionary conservation of α- and β-tubulin and cytoplasmic β- and γ-actin genes using specific cloned cDNA probes

Author

Marc W. Kirschner, William J. Rutter, Nicholas J. Cowan, Margaret A. Lopata, Don W. Cleveland, and Raymond J. MacDonald

Subjects

macromolecular substances, Biology, Molecular biology, General Biochemistry, Genetics and Molecular Biology, DNA sequencing, law.invention, Restriction enzyme, chemistry.chemical_compound, genomic DNA, chemistry, law, Complementary DNA, Recombinant DNA, DNA microarray, In vitro recombination, DNA

Abstract

Bacterial clones containing inserted DNA sequences specific for α-tubulin, β-tubulin, β-actin and γ-actin have been constructed from mRNA of embryonic chick brain. Plasmids containing approximately 75, 90 and >90%, respectively, of the sequences present in α-tubulin, β-tubulin and β-actin mRNAs have been isolated as well as clones containing parts of the extensive 3′ untranslated regions of the β- and γ-actin mRNAs. The sequences for the two tubulins do not cross hybridize. Hybridization of labeled, cloned probes for each of the tubulins with chicken DNA digested with several restriction endonucleases reveals about four fragments for α- and four for β-tubulin. This seems to be the number of genes, since both the 5′ and 3′ ends of either cloned tubulin cDNAs hybridize to at least four common fragments in genomic DNA which has been digested with restriction endonucleases. The tubulin probes are able to hybridize under stringent conditions to DNA of all vertebrate genomes tested, as well as to sea urchin DNA, but not to yeast DNA. In digested sea urchin sperm DNA there are more than 20 different fragments which hybridize to both the 5′ and 3′ ends of the tubulin cDNAs. A full-length β-actin cDNA clone hybridizes to 4–7 bands in restricted chicken DNA and cross hybridizes to DNA from every other species tested, including sea urchin and yeast. Hybridization to chicken DNA of cloned probes specific for the 3′ untranslated regions of β- and γ-actin mRNA indicates that the β sequence is present only once in the genome and the γ is present in at most three copies. Neither 3′ untranslated sequence is conserved evolutionarily.

Published

1980

339. Physical and chemical properties of purified tau factor and the role of tau in microtubule assembly

Author

Don W. Cleveland, Marc W. Kirschner, and Shu-Ying Hwo

Subjects

Circular dichroism, Microtubules, GTP Phosphohydrolases, Tubulin, Structural Biology, Microtubule, mental disorders, Amino Acids, Molecular Biology, Glycoproteins, Microtubule nucleation, Adenosine Triphosphatases, biology, Chemistry, Isoelectric focusing, Circular Dichroism, Proteins, Molecular Weight, Sedimentation coefficient, Microscopy, Electron, Biochemistry, Sedimentation equilibrium, biology.protein, Spectrophotometry, Ultraviolet, Ultracentrifuge, Isoelectric Focusing, Peptides, Protein Kinases, Ultracentrifugation

Abstract

This paper describes the physical and chemical properties of purified tau, a protein which is associated with brain microtubules and which induces assembly of microtubules from tubulin. Purified tau is composed of four polypeptides which migrate at positions equivalent to molecular weights between 55,000 and 62,000 during electrophoresis on sodium dodecyl sulfate/polyacrylamide gels. These polypeptides are shown to be closely related by peptide mapping and by amnio acid analysis. A comparison by various techniques of the high molecular weight microtubule-associated proteins with the tau polypeptides indicates no apparent relationship. Tau is found by analytical ultracentrifugation and by sedimentation equilibrium to have a sedimentation coefficient of 2.6 S and a native molecular weight of 57,000. Tau, therefore, must be highly asymmetric (an axial ratio of 20:1 using a prolate ellipsoid model), and yet possess little α-helical structure as indicated by circular dichroism. Isoelectric focusing shows tau to be a neutral or slightly basic protein. Tau is also seen to be phosphorylated by a protein kinase which copurifies with microtubules. In the assembly process, tau apparently regulates the formation of longitudinal oligomers from tubulin dimers, and hence promotes ring formation under depolymerizing conditions and microtubule formation under polymerizing conditions. The known asymmetry of the tau molecule suggests that tau induces assembly by binding to several tubulin molecules per tau molecule, thereby effectively increasing the local concentration of tubulin and inducing the formation of longitudinal filaments. The role of tau is discussed in light of reports of polymerization induced by particular non-physiological conditions and by various polycations. The formation of normal microtubules over a wide range of tubulin and tau concentrations under mild buffer conditions suggests that tau and tubulin define a complete in vitro assembly system under conditions which approach physiological.

Published

1977

340. Multiple sites for the initiation of microtubule assembly in mammalian cells

Author

Margaret A. Lopata, Marc W. Kirschner, and Bruce M. Spiegelman

Subjects

Centriole, Swine, Cell, Biology, Vinblastine, Microtubules, Epithelium, Griseofulvin, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Tubulin, Microtubule, medicine, Animals, Humans, Fibroblast, Cytoskeleton, Cells, Cultured, Glycoproteins, Macropodidae, Dose-Response Relationship, Drug, Colcemid, Demecolcine, Fibroblasts, Cell biology, Cold Temperature, Cell nucleus, medicine.anatomical_structure, chemistry, biology.protein

Abstract

The pattern of microtubule regrowth in mammalian fibroblast and epithelial cells has been examined by immunofluorescence of cytoskeletal preparations with antibody to tubulin. After reversal of treatment with colcemid, vinblastine or low temperature, microtubules appear to grow simultaneously from several distinct initiation sites located within 5 μ of the nucleus of mouse and human fibroblasts. Each site initiates the growth of 10–30 microtubules. More than 70% of the mouse fibroblasts have between 5 and 10 initiation sites with an average of 8. The human fibroblasts have an average of 5 sites per cell. The average number and numerical distribution of sites per fibroblast cell are not affected by time of exposure to colcemid or the concentration of colcemid applied to the cells. Multiple microtubule initiation sites are also observed during the process of microtubule depolymerization. In addition to growth from these complex initiation sites, microtubules appear to grow singly from the perinuclear region of human fibroblasts. The regrowth of individual microtubules from the perinuclear region is especially prominent in epithelial cell lines from rat kangaroo and pig. These epithelial lines have only a single complex initiation site per cell. Two classes of complex initiation sites can be distinguished in microtubule regrowth experiments in human and mouse fibroblasts after exposure to griseofulvin. Microtubules first grow extensively from a single distinct site, which has approximately 20 microtubules growing from it and may be the centriole or centriolar pair. Subsequently, microtubules regrow from other perinuclear complex initiation sites. It thus appears that at least three distinct classes of initiation sites can be observed in mammalian cells: primary sites, which regrow microtubules first after griseofulvin treatment; secondary sites, which are distinct perinuclear sites and recover from griseofulvin treatment more slowly than the primary sites; and tertiary sites or sites of growth of single microtubules, also located near the cell nucleus.

Published

1979

341. Tau Consists of a Set of Proteins with Repeated C-Terminal Microtubule-Binding Domains and Variable N-Terminal Domains

Author

D. Drechsel, A Himmler, David W. Martin, and Marc W. Kirschner

Subjects

Neurite, Microtubule-associated protein, Molecular Sequence Data, Nerve Tissue Proteins, tau Proteins, Microtubules, Mice, Microtubule, Complementary DNA, mental disorders, Animals, Humans, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, Molecular Biology, Peptide sequence, Binding Sites, Base Sequence, biology, cDNA library, DNA, Cell Biology, Molecular biology, Cell biology, Tubulin, RNA splicing, biology.protein, Cattle, Microtubule-Associated Proteins, Research Article

Abstract

Tau proteins consist of a family of proteins, heterogeneous in size, which associate with microtubules in vivo and are induced during neurite outgrowth. In humans, tau is one of the major components of the pathognomonic neurofibrillary tangles in Alzheimer's disease brain. Screening of a cDNA library prepared from bovine brain led to the isolation of several cDNA clones encoding tau proteins with different N termini and differing by insertions or deletions, suggesting differential splicing of the tau transcripts. One of the N-terminal domains and the repeated C-terminal domain of the encoded tau proteins are recognized by polyclonal antibodies to bovine tau. The bovine tau proteins are highly homologous to murine and human tau, especially within the repeated C-terminal domain. Compared with murine and human tau, bovine tau contains the insertion of three longer segments, one of which is an additional characteristic repeat. Portions of tau proteins generated by in vitro translation were used to show that these repeats represent tubulin-binding domains, two of which are sufficient to bind to microtubules assembled from purified tubulin in the presence of taxol.

Published

1989

342. Implications of treadmilling for the stability and polarity of actin and tubulin polymers in vivo

Author

Marc W. Kirschner

Subjects

biology, Articles, macromolecular substances, Cell Biology, Microfilament, Microtubules, Actins, Cell biology, Protein filament, Adenosine Triphosphate, Tubulin, Treadmilling, Polymerization, Microtubule, biology.protein, Guanosine Triphosphate, Cytoskeleton, Actin, Protein Binding

Abstract

In this report, we examine how the cell can selectively stabilize anchored filaments and suppress spontaneous filament assembly. Because microtubules and actin filaments have an organized distribution in cells, the cell must have a mechanism for suppressing spontaneous and random polymerization. Though the mechanism for suppressing spontaneous polymerization is unknown, an unusual property of these filaments has been demonstrated recently, i.e., under steady-stae conditions, in vitro actin filaments and microtubules can exhibit a flux of subunits through the polymers called "treadmilling." In vivo, however, most, if not all, of these polymers are attached at one end to specific structures and treadmilling should not occur. The function of treadmilling in vivo is, therefore, unclear at present. However, as shown here, the same physicochemical property of coupling assembly to ATP or GTP hydrolysis that leads to treadmilling in vitro can act to selectively stabilize anchored polymers in vivo. I show here that the theory of treadmilling implies that the concentration of subunits necessary for assembly of the nonanchored polymer will in general be higher than the concentration necessary for the assembly of polymers anchored with a specific polarity. This disparity in the monomer concentrations required for assembly can lead to a selective stabilization of anchored polymers and complete suppression of spontaneous polymerization at apparent equilibrium in vivo. It is possible, therefore, that the phenomenon of treadmilling is an in vitro manifestation of a mechanism designed to use ATP or GTP hydrolysis to control the spatial organization of filaments in the cell.

Published

1980

343. Mitosis in a cell with multiple centrioles

Author

R Hubble, Marc W. Kirschner, and D Ring

Subjects

Centriole, Mitosis, Microtubule organizing center, Centrosome cycle, Articles, Cell Biology, Biology, Microtubules, Cell Line, Cell biology, Organoids, Mice, Neuroblastoma, Prophase, Tubulin, Centrosome, Animals, Prometaphase, Metaphase, Centrioles

Abstract

N115 mouse neuroblastoma cells possess a large number of microtubule organizing centers (MTOCs) which can be identified ultrastructurally as single centrioles. The distribution and activity of these organizing centers can be followed through all stages of the cell cycle by labeling microtubules with anti-tubulin and chromatin with the Hoechst dye, Bisbenzimid. We have found that multiple MTOCs persist and continue to organize microtubules during mitosis. They exhibit a well-defined sequence of movements, starting from a loose cluster during interphase, proceeding to a widely and evenly dispersed arrangement in prophase, gathering into small clusters and chains during prometaphase, and residing in two ring-shaped groups at the mitotic poles during metaphase and anaphase. Despite their large number of centrioles, virtually all N115 cells show a normal bipolar mitosis, but often with unequal numbers of centrioles at the two poles. Such observations bring into question the importance of the centriole in establishing bipolar division in this cell type.

Published

1982

344. Multiple alpha and beta tubulin genes represent unlinked and dispersed gene families

Author

Elton Stubblefield, Marc W. Kirschner, Stephen H. Hughes, Don W. Cleveland, and Harold E. Varmus

Subjects

biology, Chromosome, macromolecular substances, Cell Biology, Biochemistry, Molecular biology, Genome, Restriction enzyme, chemistry.chemical_compound, Tubulin, chemistry, Complementary DNA, biology.protein, Gene family, Molecular Biology, Gene, DNA

Abstract

Cloned cDNA sequences specific for alpha or beta tubulin mRNAs have been used to show that the multigene families which encode either alpha or beta tubulin are unlinked and dispersed throughout the chicken genome. Fractions of chicken chromosomes partially purified by centrifugation on a sucrose gradient were digested with restriction endonucleases and electrophoresed on agarose gels. The DNA was transferred to nitrocellulose filters and hybridized to labeled probes constructed from cloned cDNA sequences specific for alpha or beta tubulin. We find alpha tubulin sequences on four different chicken chromosomes and beta tubulin sequences on at least two different chromosomes. Moreover, using chicken chromosomes further purified with a fluorescent cell sorter, we have been able unambiguously to localize alpha tubulin genes to chromosome 1 and chromosome 8 and two of the beta genes to chromosome 2.

Published

1981

345. Conformational changes in proteins as measured by difference sedimentation studies. II. Effect of stereospecific ligands on the catalytic subunit of aspartate transcarbamylase

Author

Marc W. Kirschner and Howard K. Schachman

Subjects

Aspartic Acid, Chemical Phenomena, Chemistry, Stereochemistry, Protein subunit, Succinates, Sedimentation, Biochemistry, Catalysis, Glutarates, Molecular Weight, Stereospecificity, Transferases, Aspartate Transcarbamylase, Phosphoric Acids, Carbamates, Molecular Biology, Ultracentrifugation, Mathematics

Published

1971

346. Preparation of 125I-Catalytic Subunit of Aspartate Transcarbamylase and Its Use in Studies of the Regulatory Subunit

Author

Marc W. Kirschner, Ying R. Yang, and J. Michael Syvanen

Subjects

chemistry.chemical_classification, Enzyme complex, Protein subunit, Allosteric regulation, Mutant, Cell Biology, Biology, Biochemistry, Gamma-aminobutyric acid receptor subunit alpha-1, Molecular biology, Enzyme, chemistry, Pyrimidine metabolism, Molecular Biology, Polyacrylamide gel electrophoresis

Abstract

A quantitative specific assay for the regulatory subunit of aspartate transcarbamylase is described. The assay, in which the native enzyme will not interfere even when present in large excess, is sensitive to 5 ng of regulatory subunit at a concentration as low as 0.1 µg per mg in crude extracts. The assay utilizes a 125I-labeled catalytic subunit which combines spontaneously with regulatory subunit to form a complex which co-migrates with the native enzyme on acrylamide gel electrophoresis in a position clearly separable from the 125I-catalytic subunit. The amount of regulatory subunit can then be calculated from the known weight ratio in the enzyme complex. Mutants of Salmonella typhimurium defective in aspartate transcarbamylase activity are shown to still synthesize regulatory subunit, while a mutant constitutive for the enzymes in the pathway for pyrimidine biosynthesis is shown to produce an excess of free regulatory subunit over native enzyme. A new procedure for iodination of proteins under mild conditions is described. It utilizes a preoxidation of iodide to iodine under conditions of stoichiometric or very low excess of oxidizing agent followed by reaction with the protein. It is used on a microscale to prepare 125I-catalytic subunit having properties virtually indistinguishable from the native protein.

Published

1973

347. On the Relationship of Protein and mRNA Dynamics in Vertebrate Embryonic Development

Author

Marc W. Kirschner, John C. Gerhart, Steven P. Gygi, Esther J. Pearl, Wilhelm Haas, Robert Freeman, Martin Wühr, Leonid Peshkin, Allon M. Klein, and Marko E. Horb

Subjects

Aging, Proteome, Transcription, Genetic, Xenopus, Embryonic Development, Xenopus Proteins, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Retinoblastoma-like protein 1, Xenopus laevis, 03 medical and health sciences, 0302 clinical medicine, Transcription (biology), Protein biosynthesis, Animals, RNA, Messenger, Molecular Biology, 030304 developmental biology, Genetics, 0303 health sciences, Messenger RNA, Embryogenesis, Gene Expression Regulation, Developmental, RNA, Cell Biology, biology.organism_classification, Cell biology, Protein Biosynthesis, 030217 neurology & neurosurgery, Developmental Biology

Abstract

SummaryA biochemical explanation of development from the fertilized egg to the adult requires an understanding of the proteins and RNAs expressed over time during embryogenesis. We present a comprehensive characterization of protein and mRNA dynamics across early development in Xenopus. Surprisingly, we find that most protein levels change little and duplicated genes are expressed similarly. While the correlation between protein and mRNA levels is poor, a mass action kinetics model parameterized using protein synthesis and degradation rates regresses protein dynamics to RNA dynamics, corrected for initial protein concentration. This study provides detailed data for absolute levels of ∼10,000 proteins and ∼28,000 transcripts via a convenient web portal, a rich resource for developmental biologists. It underscores the lasting impact of maternal dowry, finds surprisingly few cases where degradation alone drives a change in protein level, and highlights the importance of transcription in shaping the dynamics of the embryonic proteome.

348. Geminin, an Inhibitor of DNA Replication, Is Degraded during Mitosis

Author

Marc W. Kirschner and Thomas J. McGarry

Subjects

DNA Replication, DNA re-replication, DNA, Complementary, Saccharomyces cerevisiae Proteins, Recombinant Fusion Proteins, Ubiquitin-Protein Ligases, Molecular Sequence Data, Mitosis, Cell Cycle Proteins, Eukaryotic DNA replication, Xenopus Proteins, Pre-replication complex, Anaphase-Promoting Complex-Cyclosome, General Biochemistry, Genetics and Molecular Biology, Ligases, DNA replication factor CDT1, Xenopus laevis, Replication factor C, Control of chromosome duplication, Animals, Humans, Amino Acid Sequence, Ubiquitins, Cell Nucleus, Sequence Homology, Amino Acid, biology, Biochemistry, Genetics and Molecular Biology(all), Geminin, Nuclear Proteins, Ubiquitin-Protein Ligase Complexes, Chromatin, Cell biology, Molecular Weight, embryonic structures, biology.protein, Origin recognition complex, Cell Division, HeLa Cells

Abstract

We describe a novel 25 kDa protein, geminin, which inhibits DNA replication and is degraded during the mitotic phase of the cell cycle. Geminin has a destruction box sequence and is ubiquitinated anaphase-promoting complex (APC) in vitro. In synchronized HeLa cells, geminin is absent during G1 phase, accumulates during S, G2, and M phases, and disappears at the time of the metaphase–anaphase transition. Geminin inhibits DNA replication by preventing the incorporation of MCM complex into prereplication complex (pre-RC). We propose that geminin inhibits DNA replication during S, G2, and M phases and that geminin destruction at the metaphase–anaphase transition permits replication in the succeeding cell cycle.

349. A 20s complex containing CDC27 and CDC16 catalyzes the mitosis-specific conjugation of ubiquitin to cyclin B

Author

Randall W. King, Philip Hieter, Jan-Michael Peters, Marc W. Kirschner, Mark Rolfe, and Stuart Tugendreich

Subjects

Saccharomyces cerevisiae Proteins, Cdc20 Proteins, Macromolecular Substances, Cyclin D, Ubiquitin-Protein Ligases, Xenopus, Cyclin A, Cyclin B, Mitosis, Cell Cycle Proteins, Ubiquitin-Activating Enzymes, General Biochemistry, Genetics and Molecular Biology, APC/C activator protein CDH1, Ligases, 03 medical and health sciences, 0302 clinical medicine, Apc3 Subunit, Anaphase-Promoting Complex-Cyclosome, Cyclins, Animals, Apc6 Subunit, Anaphase-Promoting Complex-Cyclosome, Ubiquitins, 030304 developmental biology, Ovum, 0303 health sciences, biology, Biochemistry, Genetics and Molecular Biology(all), Recombinant Proteins, 3. Good health, Cell biology, Ubiquitin-Conjugating Enzymes, Cyclin-dependent kinase complex, biology.protein, Anaphase-promoting complex, Anaphase, 030217 neurology & neurosurgery, Cyclin A2, Subcellular Fractions

Abstract

Cyclin B is degraded at the onset of anaphase by a ubiquitin-dependent proteolytic system. We have fractionated mitotic Xenopus egg extracts to identify components required for this process. We find that UBC4 and at least one other ubiquitin-conjugating enzyme can support cyclin B ubiquitination. The mitotic specificity of cyclin ubiquitination is determined by a 20S complex that contains homologs of budding yeast CDC16 and CDC27. Because these proteins are required for anaphase in yeast and mammalian cells, we refer to this complex as the anaphase-promoting complex (APC). CDC27 antibodies deplete APC activity, while immunopurified CDC27 complexes are sufficient to complement either interphase extracts or a mixture of recombinant UBC4 and the ubiquitin-activating enzyme E1. These results suggest that APC functions as a regulated ubiquitin-protein ligase that targets cyclin B for destruction in mitosis.

350. Regulation of Cdc25C by ERK-MAP Kinases during the G2/M Transition

Author

Jian Kuang, Gary E. Gallick, P. Todd Stukenberg, Mayra Nelman-Gonzalez, Guangan He, Marc W. Kirschner, Cheryl L. Ashorn, and Ruoning Wang

Subjects

MAPK/ERK pathway, Xenopus, Molecular Sequence Data, Cyclin B, Mitosis, Cell Cycle Proteins, Polo-like kinase, Xenopus Proteins, Mitogen-activated protein kinase kinase, environment and public health, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Animals, Humans, cdc25 Phosphatases, Amino Acid Sequence, Phosphorylation, Interphase, 030304 developmental biology, MAPK14, Mitogen-Activated Protein Kinase 1, 0303 health sciences, Cyclin-dependent kinase 1, Mitogen-Activated Protein Kinase 3, biology, Biochemistry, Genetics and Molecular Biology(all), Kinase, Cell Cycle, 3. Good health, Cell biology, Meiosis, enzymes and coenzymes (carbohydrates), 030220 oncology & carcinogenesis, Mitogen-activated protein kinase, Oocytes, biology.protein, biological phenomena, cell phenomena, and immunity, Sequence Alignment

Abstract

Summary Induction of G 2 /M phase transition in mitotic and meiotic cell cycles requires activation by phosphorylation of the protein phosphatase Cdc25. Although Cdc2/cyclin B and polo-like kinase (PLK) can phosphorylate and activate Cdc25 in vitro, phosphorylation by these two kinases is insufficient to account for Cdc25 activation during M phase induction. Here we demonstrate that p42 MAP kinase (MAPK), the Xenopus ortholog of ERK2, is a major Cdc25 phosphorylating kinase in extracts of M phase-arrested Xenopus eggs. In Xenopus oocytes, p42 MAPK interacts with hypophosphorylated Cdc25 before meiotic induction. During meiotic induction, p42 MAPK phosphorylates Cdc25 at T48, T138, and S205, increasing Cdc25's phosphatase activity. In a mammalian cell line, ERK1/2 interacts with Cdc25C in interphase and phosphorylates Cdc25C at T48 in mitosis. Inhibition of ERK activation partially inhibits T48 phosphorylation, Cdc25C activation, and mitotic induction. These findings demonstrate that ERK-MAP kinases are directly involved in activating Cdc25 during the G 2 /M transition.