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Tissue-specific subcellular immunolocalization of a myosin-like protein in maize root apices (2000)

Baluška, František ; Polsakiewicz, Monika ; Peters, Mechthild ; [et al.]

Springer

Protoplasma 212 (2000), S. 137-145

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ISSN: 1615-6102

Keywords: Actin ; Amyloplasts ; Zea mays ; Myosin ; Phloem ; Root

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Using a heterologous myosin antibody raised against the whole molecule of bovine muscle myosin, we have identified a myosin-like protein in maize. Immunoblots of subcellular fractions isolated from roots identified one distinct band at about 210 kDa in the microsomal protein fraction and one band at about 180 kDa in the soluble protein fraction. Indirect immunofluorescence was performed using maize root apex sections to reveal endocellular distributions of the myosin-like protein. Both diffuse and particulate labelling patterns were observed throughout the cytoplasm of all root cells. In mitotic cells, myosin-like protein was excluded from spindle regions. Amyloplast surfaces were labelled prominently in cells of the root cap statenchyma and in all root cortex cells. On the other hand, myosin-like protein was prominently enriched at cellular peripheries in cells of the pericycle and outer stele in the form of continuous peripheral labelling. From all root apex tissues, phloem elements showed the most abundant presence of myosinlike protein.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01282915

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Immunodetection of four mitotic cyclins and the Cdc2a protein kinase in the maize root: Their distribution in cell development and dedifferentiation (2000)

Mews, Miriam ; Sek, Francis J. ; Volkmann, Dieter ; [et al.]

Springer

Protoplasma 212 (2000), S. 236-249

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ISSN: 1615-6102

Keywords: Plant cyclin ; Development ; Dedifferentiation ; Lateral-root primordium ; Wounding ; Zea mays

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Cyclin proteins and cyclin-dependent kinases play a key role in the regulation of cell division. We have therefore studied the relationship of the level of four mitotic cyclin proteins and the Cdc2a kinase protein to cell division in maize root tissue with respect to cessation of division as cells leave the primary meristem region, resumption of division in formation of lateral-root primordia, and induced division following wounding. All four mitotic cyclins and Cdc2a were most abundant in dividing cells. The only examined cell cycle protein which was restricted to dividing tissue was cyclin ZmCycB1;2 (previously ZmIb) and may thus be a limiting factor for cell division. All other cyclin proteins, i.e., ZmCycB1;1 (previously ZmIa), ZmCycA1;1 (previously ZmII), and ZmCycB2;1 (previously ZmIII), and the Cdc2a kinase declined shortly after cells had ceased division. The distance from the root tip at which cells ceased division was tissue-specific and reflected the distance at which decrease of cell cycle proteins was detected. Whereas cyclin ZmCycB1;2 rapidly declined to a hardly detectable level in either nucleus or cytoplasm, in the nuclei of nondividing cells there was persistence of Cdc2a and of cyclins ZmCycB1;1, ZmCycCA1;1, and ZmCycB2;1, indicating that there are plant cyclins which are tightly linked to cell division and others that persist, especially in the nuclei, in nondividing cells. The transition from division to differentiation may thus partly be triggered and enforced by the decrease of the cell cycle proteins and especially the decline of cyclins in the cytoplasm. In the resumption of cell division, both in lateral-root formation and in wound response, high nuclear and low cytoplasmic accumulation of cyclin ZmCycB2;1 was the first visible sign of cell dedifferentiation, implying a role for cyclin ZmCycB2;1 in the G0–G1 phase transition. Next, cytoplasmic accumulation of cyclin ZmCycA1;1, followed by a rearrangement of cortical microtubules, was observed and since both the cyclins ZmCycA1;1 and ZmCycB2;1 were found at places of high tubulin concentration, they may function in the microtubule rearrangement for cell division. When the nuclei of dedifferentiating cells had visibly enlarged, all cyclins and Cdc2a accumulated there, possibly contributing to DNA replication and preparation for mitosis. Later, presumably during G2 phase, cytoplasmic accumulation was observed for Cdc2a at low levels, as observed in G2 phase cells of the primary meristem, and for cyclins ZmCycB1;1 and ZmCycB1;2 accumulation was observed above the levels found in undisturbed meristems, suggesting special contributions to late dedifferentiation processes in both wound-induced and lateral meristems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01282924

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Inert and Labile [Ru(L)(‘pyS4’)] Complexes with Rigid [RuNS4] Cores and trans-Thiolate Donors [L = PPh3, PEt3, DMSO, CO, NO+, N2H4; ‘pyS4’2- = 2,6-Bis(2-mercaptophenylthio)dimethylpyridine(2-)] (2000)

Sellmann, Dieter ; Engl, Klaus ; Heinemann, Frank W.

Weinheim : Wiley-Blackwell

Berichte der deutschen chemischen Gesellschaft 2000 (2000), S. 423-429

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ISSN: 1434-1948

Keywords: Ruthenium ; Sulfur ligands ; Exchange reactions ; Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: In a quest for ruthenium complexes having [RuNS4] cores, a non-fluxional configuration, trans-thiolate donors, and exchangeable coligands L, [Ru(L)(‘pyS4’)] complexes have been synthesized [‘pyS4’2- = 2,6-bis(2-mercaptophenylthio)dimethylpyridine(2-)]. Treatment of [RuCl2(PPh3)3] with ‘pyS4’2- gave [Ru(PPh3)(‘pyS4’)] (1). Alkylation of 1 with excess MeI yielded [Ru(PPh3)(‘pyS4’-Me2)]I2 (2). [Ru(DMSO)(‘pyS4’)] (3) was obtained from [RuCl2(DMSO)4] and ‘pyS4’2-. The PPh3 or DMSO coligands in 1, 2, and 3 proved to be very inert to substitution. Only the DMSO could be displaced by CO under drastic conditions yielding [Ru(CO)(‘pyS4’)] (4). Treatment of [RuCl2(CH3CN)4] with ‘pyS4’2- yielded [Ru(‘pyS4’)]2 (5); in the presence of PEt3 or N2H4 mononuclear [Ru(PEt3)(‘pyS4’)] (6) and [Ru(N2H4)(‘pyS4’)] (7) were formed. Template alkylation of NBu4[Ru(NO)(S2C6H4)2] with 2,6-bis(tosyloxymethyl)pyridine gave [Ru(NO)(‘pyS4’)]Tos (8). Complex 8 proved to be the best suited precursor for L exchange reactions. Under reducing conditions, 8 releases its NO ligand and the resulting [Ru(‘pyS4’)] fragments can combine either with each other to give 5, or with PEt3 and N2H4 to yield 6 and 7, respectively. All complexes have been characterized by spectroscopic methods and elemental analysis; 1, 2, 3, and 4 have also been submitted to X-ray structure analysis.

Additional Material: 2 Ill.

Type of Medium: Electronic Resource

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Synthesis and Exchange Reactions of Sulfur-Rich Nickel and Palladium [M(L)(‘S3’)] Complexes [‘S3’2- = Bis(2-mercaptophenyl)sulfide(2-)] (2000)

Sellmann, Dieter ; Geipel, Franz ; Heinemann, Frank W.

Weinheim : Wiley-Blackwell

Berichte der deutschen chemischen Gesellschaft 2000 (2000), S. 271-279

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ISSN: 1434-1948

Keywords: Nickel complexes ; Palladium complexes ; S ligands ; Exchange reactions ; Azide ; Sulfinylimide ; Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: In order to obtain suitable precursors for nickel and palladium complexes that model the reactivity of the active sites of hydrogenases and CO dehydrogenases, a series of [M(L)(‘S3’)] complexes has been synthesized [M = NiII, PdII; ‘S3’2- = bis(2-mercaptophenyl)sulfide(2-)]. X-ray structure determinations of [Ni(‘S3’)]3 (1) and [Pd(‘S3’)]3 (2) have revealed that the [M(‘S3’)] fragments trimerize to give six-membered [MS]3 rings, which exhibit chair conformations with alternating MII centers and thiolate bridging atoms. Reactions of the parent complex [Ni(‘S3’)]3 (1) with nucleophiles L, such as thiolates SR- (R = tBu, Cy, Me, Ph), phosphanes PR3 (R = Cy, Ph), chloride, or azide, have been found to yield the corresponding anionic or neutral [Ni(L)(‘S3’)] complexes, which were isolated as (NBu4)[Ni(SR)(‘S3’)] [R = tBu (3), Cy (4), Me (5), Ph (6)], [Ni(PR3)(‘S3’)] [R = Cy (7), Ph (8)], (NBu4)[Ni(Cl)(‘S3’)] (9), and (NBu4)[Ni(N3)(‘S3’)] (10). When treated with Me3SiX, the StBu- ligand in (NBu4)[Ni(StBu)(‘S3’)] (3) was exchanged to give (NBu4)[Ni(X)(‘S3’)] [X = Cl- (9), N3- (10), NCS- (11), NSO- (12)]. The palladium complex [Pd(‘S3’)]3 (2) could also be cleaved with StBu-, but the resulting (NBu4)[Pd(StBu)(‘S3’)] (13) proved inert towards exchange reactions with Me3SiX. All the mononuclear complexes have been characterized by standard spectroscopic techniques and by elemental analysis. The molecular structures of 3, 4, 6, 7, 8, 9, and 13 have been determined by X-ray crystallography. The [MS3L] core geometries of all the complexes are non-planar, exhibiting a considerable tetrahedral distortion.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

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