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Garcia BA Hake SB Diaz RL Kauer M Morris SA Recht J Shabanowitz J Mishra N Strahl BD Allis CD Hunt DF 《The Journal of biological chemistry》2007,282(10):7641-7655
Post-translational modifications (PTMs) of histones play an important role in many cellular processes, notably gene regulation. Using a combination of mass spectrometric and immunobiochemical approaches, we show that the PTM profile of histone H3 differs significantly among the various model organisms examined. Unicellular eukaryotes, such as Saccharomyces cerevisiae (yeast) and Tetrahymena thermophila (Tet), for example, contain more activation than silencing marks as compared with mammalian cells (mouse and human), which are generally enriched in PTMs more often associated with gene silencing. Close examination reveals that many of the better-known modified lysines (Lys) can be either methylated or acetylated and that the overall modification patterns become more complex from unicellular eukaryotes to mammals. Additionally, novel species-specific H3 PTMs from wild-type asynchronously grown cells are also detected by mass spectrometry. Our results suggest that some PTMs are more conserved than previously thought, including H3K9me1 and H4K20me2 in yeast and H3K27me1, -me2, and -me3 in Tet. On histone H4, methylation at Lys-20 showed a similar pattern as H3 methylation at Lys-9, with mammals containing more methylation than the unicellular organisms. Additionally, modification profiles of H4 acetylation were very similar among the organisms examined. 相似文献
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A Tandem Duplication Causes the Kn1-O Allele of Knotted, a Dominant Morphological Mutant of Maize 总被引:6,自引:4,他引:2 下载免费PDF全文
Molecular and genetic techniques are used to define Kn1-O, a mutation which interferes with the normal differentiation of vascular tissue in leaves. Sequences associated with a previously cloned allele, Kn1-2F11, were used as hybridization probes in a Southern analysis of Kn1-O. By this analysis, Kn1-O lacks the Ds2 transposable element that causes Kn1-2F11 but instead is associated with a sequence duplication. Sequence and restriction analysis of genomic clones show that the duplication consists of a tandem array of two 17-kb repeats. Analysis of Kn1-O derivatives indicates that the duplication itself conditions the mutant phenotype; a severely knotted line, Kn1-Ox, has gained a repeat unit to form a triplication, whereas normal derivatives have either lost a repeat unit or sustained insertions that disrupt the tandem duplication. These insertions map near the central junction of the tandem duplication, suggesting that the mutant phenotype results from the novel juxtaposition of sequences. We discuss models that relate the tandem duplication of sequences to altered gene expression. 相似文献
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A F Corin G McLendon Q Zhang R A Hake J Falvo K S Lu R B Ciccarelli D Holzschu 《Biochemistry》1991,30(49):11585-11595
Site-directed mutagenesis was employed to examine the role played by specific surface residues in the activity of cytochrome c peroxidase. The double charge, aspartic acid to lysine, point mutations were constructed at positions 37, 79, and 217 on the surface of cytochrome c peroxidase, sites purported to be within or proximal to the recognition site for cytochrome c in an electron-transfer productive complex formed by the two proteins. The resulting mutant peroxidases were examined for catalytic activity by steady-state measurements and binding affinity by two methods, fluorescence binding titration and cytochrome c affinity chromatography. The cloned peroxidases exhibit similar UV-visible spectra to the wild-type yeast protein, indicating that there are no major structural differences between the cloned peroxidases and the wild-type enzyme. The aspartic acid to lysine mutations at positions 79 and 217 exhibited similar turnover numbers and binding affinities to that seen for the "wild type-like" cloned peroxidase. The same change at position 37 caused more than a 10-fold decrease in both turnover of and binding affinity for cytochrome c. This empirical finding localizes a primary recognition region critical to the dynamic complex. Models from the literature proposing structures for the complex between peroxidase and cytochrome c are discussed in light of these findings. 相似文献
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KNAT1 induces lobed leaves with ectopic meristems when overexpressed in Arabidopsis. 总被引:19,自引:4,他引:15 下载免费PDF全文
Plant development depends on the activity of apical meristems, which are groups of indeterminate cells whose derivatives elaborate the organs of the mature plant. Studies of knotted1 (kn1) and related gene family members have determined potential roles for homeobox genes in the function of shoot meristems. The Arabidopsis kn1-like gene, KNAT1, is expressed in the shoot apical meristem and not in determinate organs. Here, we show that ectopic expression of KNAT1 in Arabidopsis transforms simple leaves into lobed leaves. The lobes initiate in the position of serrations yet have features of leaves, such as stipules, which form in the sinus, the region at the base of two lobes. Ectopic meristems also arise in the sinus region close to veins. Identity of the meristem, that is, vegetative or floral, depends on whether the meristem develops on a rosette or cauline leaf, respectively. Using in situ hybridization, we analyzed the expression of KNAT1 and another kn1-like homeobox gene, SHOOT MERISTEMLESS, in cauliflower mosaic virus 35S::KNAT1 transformants. KNAT1 expression is strong in vasculature, possibly explaining the proximity of the ectopic meristems to veins. After leaf cells have formed a layered meristem, SHOOT MERISTEMLESS expression begins in only a subset of these cells, demonstrating that KNAT1 is sufficient to induce meristems in the leaf. The shootlike features of the lobed leaves are consistent with the normal domain of KNAT1's expression and further suggest that kn1-related genes may have played a role in the evolution of leaf diversity. 相似文献
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Sarah Hake William C. Taylor Michael Freeling 《Molecular & general genetics : MGG》1984,194(1-2):42-48
Summary 10 genetically stable mutants of the alcohol dehydrogenase-1 gene in maize were examined for ADH1-mRNA size and abundance, large changes in genomic restriction fragments, and intragenic recombination levels. Eight of the mutants were induced with ethyl methanesulfonate (EMS), four of which are CRM–; the other two mutants followed treatment with ionizing radiation. In general, EMS and ionizing radiation induce point lesions in Adh1 that, with few exceptions, do not alter the abundance or size of ADH1-RNA, or alter the gross genomic restriction map. One EMS mutant produced both normalsized and larger than normal ADH1-mRNA. The larger ADH1-mRNA appears to result from improper termination. Another mutant behaved as expected of an intragenic deletion in recombination tests but we found no abnormalities by restriction site mapping. 相似文献
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Cloning Knotted, the dominant morphological mutant in maize using Ds2 as a transposon tag 总被引:18,自引:0,他引:18 下载免费PDF全文
The Kn1-2F11 mutation causes protrusions or knots along the lateral veins of the first few leaves of the maize plant. The phenotype is visible when an unlinked gene, presumably Ac, is present in the genome. The mutation is closely linked to a genetically unstable Adh1 mutation that resulted from the insertion of a Ds2 element (Döring et al., 1984; Chen et al., 1986). Using a unique sequence from the Ds2 element as a hybridization probe, a genomic restriction fragment that cosegregated with the knotted phenotype was cloned. It carries the Kn1-2F11 locus by the following criteria. (i) Cosegregation of the fragment is tightly linked to the phenotype. (ii) Somatic and germinal excision produce a fragment which is the expected size of a revertant fragment; progeny containing the revertant size fragment are normal. (iii) The sequences that hybridize to this fragment are significantly altered in the chromosome containing the original knotted mutation, Kn1-O, (iv) The cloned fragment does not hybridize to a chromosome that contains a deletion of Kn1-O. 相似文献
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