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991.
Mouse Emi2 is required to enter meiosis II by reestablishing cyclin B1 during interkinesis 下载免费PDF全文
Madgwick S Hansen DV Levasseur M Jackson PK Jones KT 《The Journal of cell biology》2006,174(6):791-801
During interkinesis, a metaphase II (MetII) spindle is built immediately after the completion of meiosis I. Oocytes then remain MetII arrested until fertilization. In mouse, we find that early mitotic inhibitor 2 (Emi2), which is an anaphase-promoting complex inhibitor, is involved in both the establishment and the maintenance of MetII arrest. In MetII oocytes, Emi2 needs to be degraded for oocytes to exit meiosis, and such degradation, as visualized by fluorescent protein tagging, occurred tens of minutes ahead of cyclin B1. Emi2 antisense morpholino knockdown during oocyte maturation did not affect polar body (PB) extrusion. However, in interkinesis the central spindle microtubules from meiosis I persisted for a short time, and a MetII spindle failed to assemble. The chromatin in the oocyte quickly decondensed and a nucleus formed. All of these effects were caused by the essential role of Emi2 in stabilizing cyclin B1 after the first PB extrusion because in Emi2 knockdown oocytes a MetII spindle was recovered by Emi2 rescue or by expression of nondegradable cyclin B1 after meiosis I. 相似文献
992.
Many insect and fungal pathogens posing agronomically important threats specifically target the roots in strawberry. The use of a root-specific promoter to confer expression of resistance genes in a targeted manner has the potential appreciably to benefit the genetic improvement of commercial strawberry varieties. A novel gene, FaRB7, was isolated from strawberry (Fragariaxananassa Duch.) and found to contain motifs characteristic of tonoplast intrinsic proteins (TIPs). Phylogenetic analysis revealed that FaRB7 represents an RB7-type TIP. In strawberry, this gene is expressed predominantly in roots, with very low expression in petioles. A 2.843 kb region representing the FaRB7 gene upstream regulatory sequence was isolated and found to share a number of sequence motifs with the promoter of the Nicotiana tabacum TobRB7 root-specific RB7-type TIP. When cloned upstream of the gusA reporter gene and introduced into strawberry plants, the FaRB7 promoter was shown to direct strong, near root-specific expression with expression patterns very similar to that of the endogenous gene. Furthermore, the FaRB7 promoter was found to confer constitutive expression, comparable to that produced by the cauliflower mosaic virus (CaMV) 35S RNA promoter, in tobacco. Thus, the FaRB7 promoter may be used to achieve near-root-specific transgene expression in strawberry and also represents an alternative to the CaMV 35S promoter for producing constitutive foreign gene expression in heterologous hosts. The FaRB7 full-length genomic sequence and 5' upstream regulatory region have been submitted to the EMBL/GenBank database under accession number DQ178022. 相似文献
993.
Guard cells rapidly adjust their plasma membrane surface area while responding to osmotically induced volume changes. Previous studies have shown that this process is associated with membrane internalization and remobilization. To investigate how guard cells maintain membrane integrity during rapid volume changes, the effects of two membrane trafficking inhibitors on the response of intact guard cells of Vicia faba to osmotic treatments were studied. Using confocal microscopy and epidermal peels, the relationship between the area of a medial paradermal guard-cell section and guard-cell volume was determined. This allowed estimates of guard-cell volume to be made from single paradermal confocal images, and therefore allowed rapid determination of volume as cells responded to osmotic treatments. Volume changes in control cells showed exponential kinetics, and it was possible to calculate an apparent value for guard-cell hydraulic conductivity from these kinetics. Wortmannin and cytochalasin D inhibited the rate of volume loss following a 0-1.5 MPa osmotic treatment. Cytochalasin D also inhibited volume increases following a change from 1.5 MPa to 0 MPa, but wortmannin had no effect. Previous studies showing that treatment with arabinanase inhibits changes in guard-cell volume in response to osmotic treatments were confirmed. However, pressure volume curves show that the effects of arabinanase and the cytochalasin D were not due to changes in cell wall elasticity. It is suggested that arabinanase, cytochalasin D, and wortmannin cause reductions in the hydraulic conductivity of the plasma membrane, possibly via gating of aquaporins. A possible role for aquaporins in co-ordinating volume changes with membrane trafficking is discussed. 相似文献
994.
Renate J Scheibe Gerolf Gros Seppo Parkkila Abdul Waheed Jeffrey H Grubb Gul N Shah William S Sly Petra Wetzel 《The journal of histochemistry and cytochemistry》2006,54(12):1379-1391
Expression of membrane-bound carbonic anhydrases (CAs) of CA IV, CA IX, CA XII, and CA XIV has been investigated in the mouse heart. Western blots using microsomal membranes of wild-type hearts demonstrate a 39-, 43-, and 54-kDa band representing CA IV, CA IX, and CA XIV, respectively, but CA XII could not be detected. Expression of CA IX in the CA IV/CA XIV knockout animals was further confirmed using matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Cardiac cells were immunostained using anti-CA/FITC and anti-alpha-actinin/TRITC, as well as anti-CA/FITC and anti-SERCA2/TRITC. Subcellular CA localization was investigated by confocal laser scanning microscopy. CA localization in the sarcolemmal (SL) membrane was examined by double immunostaining using anti-CA/FITC and anti-MCT-1/TRITC. CAs showed a distinct distribution pattern in the sarcoplasmic reticulum (SR) membrane. CA XIV is predominantly localized in the longitudinal SR, whereas CA IX is mainly expressed in the terminal SR/t-tubular region. CA IV is present in both SR regions, whereas CA XII is not found in the SR. In the SL membrane, only CA IV and CA XIV are present. We conclude that CA IV and CA XIV are associated with the SR as well as with the SL membrane, CA IX is located in the terminal SR/t-tubular region, and CA XII is not present in the mouse heart. Therefore, the unique subcellular localization of CA IX and CA XIV in cardiac myocytes suggests different functions of both enzymes in excitation-contraction coupling. 相似文献
995.
996.
Gorden KK Qiu XX Binsfeld CC Vasilakos JP Alkan SS 《Journal of immunology (Baltimore, Md. : 1950)》2006,177(10):6584-6587
Synthetic immune response modifiers (IRM) such as imidazoquinolines can selectively activate human TLR7 or TLR8. Although these endosomal TLRs are close relatives, TLR7-deficient mice are unresponsive to TLR8 agonist IRMs. Similarly, natural ssRNA cannot activate murine TLR8, leading to the belief that murine TLR8 is nonfunctional. In this study, we transfected HEK293 cells with murine TLR8 and NF-kappaB reporter constructs and stimulated them with combinations of IRM and oligodeoxynucleotides (ODNs). When stimulated with TLR7 or TLR8 agonists alone, no NF-kappaB response was observed. However, a combination of polyT ODN plus the TLR8 agonist activated NF-kappaB, whereas polyT ODN plus the TLR7 agonist did not activate. Primary mouse cells responded to the IRM/polyT ODN by secreting TNF. Cells from TLR7(-/-) and TLR9(-/-) mice responded to the IRM/polyT ODN combination, whereas MyD88(-/-) cells did not respond. In conclusion, this study demonstrates for the first time that mouse TLR8 is functional. 相似文献
997.
We describe here an alanine scanning mutational analysis of the Abeta(1-40) amyloid fibril monitored by fibril elongation thermodynamics derived from critical concentration values for fibril growth. Alanine replacement of most residues in the amyloid core region, residues 15-36, leads to destabilization of the elongation step, compared to wild-type, by about 1kcal/mol, consistent with a major role for hydrophobic packing in Abeta(1-40) fibril assembly. Where comparisons are possible, the destabilizing effects of Ala replacements are generally in very good agreement with the effects of Ala replacements of the same amino acid residues in an element of parallel beta-sheet in the small, globular protein Gbeta1. We utilize these Ala-WT DeltaDeltaG values to filter previously described Pro-WT DeltaDeltaG values, creating Pro-Ala DeltaDeltaG values that specifically assess the sensitivity of a sequence position, in the structural context of the Abeta fibril, to replacement by proline. The results provide a conservative view of the energetics of Abeta(1-40) fibril structure, indicating that positions 18-21, 25-26, and 32-33 within amyloid structure are particularly sensitive to the main-chain disrupting effects of Pro replacements. In contrast, residues 14-17, 22, 24, 27-31, and 34-39 are relatively insensitive to Pro replacements; most N-terminal residues were not tested. The results are discussed in terms of amyloid fibril structure and folding energetics, in particular focusing on how the data compare to those from other structural studies of Abeta(1-40) amyloid fibrils grown in phosphate-buffered saline at 37 degrees C under unstirred ("quiescent") conditions. 相似文献
998.
Cellular metabolism constantly generates by-products that are wasteful or even harmful. Such compounds are excreted from the cell or are removed through hydrolysis to normal cellular metabolites by various 'house-cleaning' enzymes. Some of the most important contaminants are non-canonical nucleoside triphosphates (NTPs) whose incorporation into the nascent DNA leads to increased mutagenesis and DNA damage. Enzymes intercepting abnormal NTPs from incorporation by DNA polymerases work in parallel with DNA repair enzymes that remove lesions produced by modified nucleotides. House-cleaning NTP pyrophosphatases targeting non-canonical NTPs belong to at least four structural superfamilies: MutT-related (Nudix) hydrolases, dUTPase, ITPase (Maf/HAM1) and all-alpha NTP pyrophosphatases (MazG). These enzymes have high affinity (Km's in the micromolar range) for their natural substrates (8-oxo-dGTP, dUTP, dITP, 2-oxo-dATP), which allows them to select these substrates from a mixture containing a approximately 1000-fold excess of canonical NTPs. To date, many house-cleaning NTPases have been identified only on the basis of their side activity towards canonical NTPs and NDP derivatives. Integration of growing structural and biochemical data on these superfamilies suggests that their new family members cleanse the nucleotide pool of the products of oxidative damage and inappropriate methylation. House-cleaning enzymes, such as 6-phosphogluconolactonase, are also part of normal intermediary metabolism. Genomic data suggest that house-cleaning systems are more abundant than previously thought and include numerous analogous enzymes with overlapping functions. We discuss the structural diversity of these enzymes, their phylogenetic distribution, substrate specificity and the problem of identifying their true substrates. 相似文献
999.
Jezek P Spacek T Garlid K Jabůrek M 《The international journal of biochemistry & cell biology》2006,38(11):1965-1974
Undecanesulfonate is transported by uncoupling protein-1. Its inability to induce H+ uniport with reconstituted uncoupling protein-1 supports fatty acid cycling hypothesis. Rial et al. [Rial, E., Aguirregoitia, E., Jimenez-Jimenez, J., & Ledesma, A. (2004). Alkylsulfonates activate the uncoupling protein UCP1: Implications for the transport mechanism. Biochimica et Biophysica Acta, 1608, 122-130], have challenged the fatty acid cycling by observing uncoupling of brown adipose tissue mitochondria due to undecanesulfonate, interpreted as allosteric activation of uncoupling protein-1. We have estimated undecanesulfonate effects after elimination of endogenous fatty acids by carnitine cycle in the presence or absence of bovine serum albumin. We show that the undecanesulfonate effect is partly due to fatty acid release from albumin when undecanesulfonate releases bound fatty acid and partly represents a non-specific uncoupling protein-independent acceleration of respiration, since it proceeds also in rat heart mitochondria lacking uncoupling protein-1 and membrane potential is not decreased upon addition of undecanesulfonate without albumin. When the net fatty acid-induced uncoupling was assayed, the addition of undecanesulfonate even slightly inhibited the uncoupled respiration. We conclude that undecanesulfonate does not allosterically activate uncoupling protein-1 and that fatty acid cycling cannot be excluded on a basis of its non-specific effects. 相似文献