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131.
Meinhardt LW Bellato Cde M Rincones J Azevedo RA Cascardo JC Pereira GA 《Current microbiology》2006,52(3):191-196
Witches’ broom disease (WBD) of cacao, caused by the hemibiotrophic fungus, Crinipellis perniciosa, exhibits a succession of symptoms that are caused by the biotrophic phase of the fungus. However, the study of this biotrophic
phase is limited by its exclusive growth inside the plant or in the presence of callus. Here we report for the first time
a method for the growth and maintenance of the biotrophic-like phase of C. perniciosa on a defined medium with metabolites found in the diseased tissues. Our results suggest that glycerol is a key carbon source
for this interaction. This is a crucial achievement toward understanding the biology of this fungus during the infectious
phase of WBD. 相似文献
132.
Schnabel R Bischoff M Hintze A Schulz AK Hejnol A Meinhardt H Hutter H 《Developmental biology》2006,294(2):418-431
4D microscopic observations of Caenorhabditis elegans development show that the nematode uses an unprecedented strategy for development. The embryo achieves pattern formation by sorting cells, through far-ranging movements, into coherent regions before morphogenesis is initiated. This sorting of cells is coupled to their particular fate. If cell identity is altered by experiment, cells are rerouted to positions appropriate to their new fates even across the whole embryo. This cell behavior defines a new mechanism of pattern formation, a mechanism that is also found in other animals. We call this new mechanism "cell focusing". When the fate of cells is changed, they move to new positions which also affect the shape of the body. Thus, this process is also important for morphogenesis. 相似文献
133.
Dapeng Zhang Sue Mischke Elizabeth S. Johnson Wilbert Phillips-Mora Lyndel Meinhardt 《Tree Genetics & Genomes》2009,5(1):1-10
Plant germplasm collections invariably contain varying levels of genetic redundancy, which hinders the efficient conservation
and utilization of plant germplasm. Reduction of genetic redundancies is an essential step to improve the accuracy and efficiency
of genebank management. The present study targeted the assessment of genetic redundancy and genetic structure in an international
cacao (Theobroma cacao L.) collection maintained in Costa Rica. A total of 688 cacao accessions maintained in this collection were genotyped with
15 simple sequence repeat (SSR) loci, using a capillary electrophoresis genotyping system. The SSR markers provided a high
resolution among the accessions. Thirty-six synonymously labeled sets, involving 135 accessions were identified based on the
matching of multilocus SSR profiles. After the elimination of synonymous sets, the level of redundancy caused by closely related
accessions in the collection was assessed using a simulated sampling scheme that compared allelic diversity in different sample
sizes. The result of the simulation suggested that a random sample of 113 accessions could capture 90% of the total allelic
diversity in this collection. Principal Coordinate Analysis revealed that the Trinitario hybrids from Costa Rica shared a
high similarity among groups as well as among individual accessions. The analysis of the genetic structure illustrated that
the within-country/within-region difference accounted for 84.6% of the total molecular variation whereas the among-country/among-region
difference accounted for 15.4%. The Brazilian germplasm contributed most to this collection in terms of total alleles and
private alleles. The intercountry/interregion relationship by cluster analysis largely agreed with the geographical origin
of each germplasm group and supported the hypothesis that the Upper Amazon region is the center of diversity for cacao. The
results of the present study indicated that the CATIE International Cacao Collection contains a high level of genetic redundancy.
It should be possible to rationalize this collection by reducing redundancy and ensuring optimal representation of the genetic
diversity from distinct germplasm groups. The results also demonstrated that SSR markers, together with the statistical tools
for individual identification and redundancy assessment, are technically practical and sufficiently informative to assist
the management of a tropical plant germplasm collection. 相似文献
134.
Ricardo Augusto Tiburcio Gustavo Gilson Lacerda Costa Marcelo Falsarella Carazzolle Jorge Maurício Costa Mondego Stephen C. Schuster John E. Carlson Mark J. Guiltinan Bryan A. Bailey Piotr Mieczkowski Lyndel W. Meinhardt Gonçalo Amarante Guimarães Pereira 《Journal of molecular evolution》2010,70(1):85-97
Moniliophthora perniciosa and Moniliophthora roreri are phytopathogenic basidiomycete species that infect cacao causing two important diseases in this crop: “Witches’ Broom” and “Frosty Pod Rot”, respectively. The ability of species from this genus (Moniliophthora) to cause disease is exceptional in the family Marasmiaceae. Species in closely related genera including, Marasmius, Crinipellis, and Chaetocalathus, are mainly saprotrophs and are not known to cause disease. In this study, the possibility that this phytopathogenic lifestyle has been acquired by horizontal gene transfer (HGT) was investigated. A stringent genome comparison pipeline was used to identify potential genes that have been obtained by Moniliophthora through HGT. This search led to the identification of three genes: a metallo-dependent hydrolase (MDH), a mannitol phosphate dehydrogenase (MPDH), and a family of necrosis-inducing proteins (NEPs). Phylogenetic analysis of these genes suggests that Moniliophthora acquired NEPs from oomycetes, MDH from actinobacteria and MPDH from firmicutes. Based on the known gene functions and on previous studies of M. perniciosa infection and development, a correlation between gene acquisition and the evolution of the phytopathogenic genus Moniliophthora can be postulated. 相似文献
135.
Garvey M Tepper K Haupt C Knüpfer U Klement K Meinhardt J Horn U Balbach J Fändrich M 《Biochemical and biophysical research communications》2011,(3):385-388
The oligomerization of Aβ peptide into amyloid fibrils is a hallmark of Alzheimer’s disease. Due to its biological relevance, phosphate is the most commonly used buffer system for studying the formation of Aβ and other amyloid fibrils. Investigation into the characteristics and formation of amyloid fibrils frequently relies upon material formed in vitro, predominantly in phosphate buffers. Herein, we examine the effects on the fibrillation and oligomerization mechanism of Aβ peptide that occur due solely to the influence of phosphate buffer. We reveal that significant differences in amyloid fibrillation are observed due to fibrillation being initiated in phosphate or HEPES buffer (at physiological pH and temperature). Except for the differing buffer ions, all experimental parameters were kept constant. Fibril formation was assessed using fluorescently monitored kinetic studies, microscopy, X-ray fiber diffraction and infrared and nuclear magnetic resonance spectroscopies. Based on this set up, we herein reveal profound effects on the mechanism and speed of Aβ fibrillation. The three histidine residues at positions 6, 13 and 14 of Aβ(1–40) are instrumental in these mechanistic changes. We conclude that buffer plays a more significant role in fibril formation than has been generally acknowledged. 相似文献
136.
Kaczmarek K Studencka M Meinhardt A Wieczerzak K Thoms S Engel W Grzmil P 《Molecular biology of the cell》2011,22(10):1766-1779
Peroxisomal testis-specific 1 gene (Pxt1) is the only male germ cell-specific gene that encodes a peroxisomal protein known to date. To elucidate the role of Pxt1 in spermatogenesis, we generated transgenic mice expressing a c-MYC-PXT1 fusion protein under the control of the PGK2 promoter. Overexpression of Pxt1 resulted in induction of male germ cells' apoptosis mainly in primary spermatocytes, finally leading to male infertility. This prompted us to analyze the proapoptotic character of mouse PXT1, which harbors a BH3-like domain in the N-terminal part. In different cell lines, the overexpression of PXT1 also resulted in a dramatic increase of apoptosis, whereas the deletion of the BH3-like domain significantly reduced cell death events, thereby confirming that the domain is functional and essential for the proapoptotic activity of PXT1. Moreover, we demonstrated that PXT1 interacts with apoptosis regulator BAT3, which, if overexpressed, can protect cells from the PXT1-induced apoptosis. The PXT1-BAT3 association leads to PXT1 relocation from the cytoplasm to the nucleus. In summary, we demonstrated that PXT1 induces apoptosis via the BH3-like domain and that this process is inhibited by BAT3. 相似文献
137.
138.
PaOrf2 and γ-toxin subunits of Pichia acaciae toxin (PaT) and Kluyveromyces lactis zymocin are tRNA anticodon nucleases. These secreted ribotoxins are assimilated by Saccharomyces cerevisiae, wherein they arrest growth by depleting specific tRNAs. Toxicity can be recapitulated by induced intracellular expression of PaOrf2 or γ-toxin in S. cerevisiae. Mutational analysis of γ-toxin has identified amino acids required for ribotoxicity in vivo and RNA transesterification in vitro. Here, we report that PaOrf2 residues Glu9 and His287 (putative counterparts of γ-toxin Glu9 and His209) are essential for toxicity. Our results suggest a similar basis for RNA transesterification by PaOrf2 and γ-toxin, despite their dissimilar primary structures and distinctive tRNA target specificities. PaOrf2 makes two sequential incisions in tRNA, the first of which occurs 3' from the mcm(5)s(2)U wobble nucleoside and depends on mcm(5). A second incision two nucleotides upstream results in the net excision of a di-nucleotide. Expression of phage and plant tRNA repair systems can relieve PaOrf2 toxicity when tRNA cleavage is restricted to the secondary site in elp3 cells that lack the mcm(5) wobble U modification. Whereas the endogenous yeast tRNA ligase Trl1 can heal tRNA halves produced by PaOrf2 cleavage in elp3 cells, its RNA sealing activity is inadequate to complete the repair. Compatible sealing activity can be provided in trans by plant tRNA ligase. The damage-rescuing ability of tRNA repair systems is lost when PaOrf2 can break tRNA at both sites. These results highlight the logic of a two-incision mechanism of tRNA anticodon damage that evades productive repair by tRNA ligases. 相似文献
139.
140.
Bhushan S Tchatalbachev S Klug J Fijak M Pineau C Chakraborty T Meinhardt A 《Journal of immunology (Baltimore, Md. : 1950)》2008,180(8):5537-5547
Uropathogenic Escherichia coli (UPEC) is the most common etiological cause of urogenital tract infections and represents a considerable cause of immunological male infertility. We examined TLR 1-11 expression profiles in testicular cells and the functional response to infection with UPEC. All testicular cell types expressed mRNAs for at least two TLRs and, in particular, synthesis of TLR4 was induced in testicular macrophages (TM), Sertoli cells (SC), peritubular cells (PTC), and peritoneal macrophages (PM) after UPEC exposure. Even though MyD88-dependent pathways were activated as exemplified by phosphorylation of mitogen-activated protein kinases in TM, SC, PTC, and PM and by the degradation of IkappaBalpha and the nuclear translocation of NF-kappaB in PTC and PM, treatment with UPEC did not result in secretion of the proinflammatory cytokines IL-1alpha, IL-6, and TNF-alpha in any of the investigated cells. Moreover, stimulated production of these cytokines by nonpathogenic commensal E. coli or LPS in PM was completely abolished after coincubation with UPEC. Instead, in SC, PTC, TM, and PM, UPEC exposure resulted in activation of MyD88-independent signaling as documented by nuclear transfer of IFN-related factor-3 and elevated expression of type I IFNs alpha and beta, IFN-gamma-inducible protein 10, MCP-1, and RANTES. We conclude that in this in vitro model UPEC can actively suppress MyD88-dependent signaling at different levels to prevent proinflammatory cytokine secretion by testicular cells. Thus, testicular innate immune defense is shifted to an antiviral-like MyD88-independent response. 相似文献