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991.
FA1 immunoreactivity in endocrine tumours and during development of the human fetal pancreas; negative correlation with glucagon expression 总被引:3,自引:0,他引:3
Ditte Tornehave Charlotte H. Jensen Børge Teisner Lars-Inge Larsson 《Histochemistry and cell biology》1996,106(6):535-542
Fetal antigen 1 (FA1) is a glycoprotein containing six epidermal growth factor (EGF)-like repeats. It is closely similar to
the protein translated from the human delta-like (dlk) cDNA and probably constitutes a proteolytically processed form of dlk.
dlk is homologous to theDrosophila homeotic proteinsdelta andnotch and to the murine preadipocyte differentiation factor Pref-1. These proteins participate in determining cell fate choices
during differentiation. We now report that FA1 immunoreactivity is present in a number of neuroectodermally derived tumours
as well as in pancreatic endocrine tumours. A negative correlation between FA1 and glucagon immunoreactants in these tumours
prompted a reexamination of FA1 immunoreactants during fetal pancreatic development. At the earliest stages of development,
FA1 was expressed by most of the non-endocrine parenchymal cells and, with ensuing development, gradually disappeared from
these cells and became restricted to insulin-producing beta cells. Throughout development FA1 was not detected in endocrine
glucagon, somatostatin or pancreatic polypeptide cells. Moreover, developing insulin cells that coexpressed glucagon were
negative for FA1. Thus, there was a negative correlation between FA1 and glucagon both in tumours and during development.
These results, together with FA1/dlk's similarity with homeotic proteins, point to a role of FA1 in islet cell differentiation. 相似文献
992.
Rafal Tomecki Katja M Larsen Roman J Szczesny Karolina Drazkowska Jens S Andersen Piotr P Stepien Andrzej Dziembowski Torben Heick Jensen 《The EMBO journal》2010,29(14):2342-2357
The eukaryotic RNA exosome is a ribonucleolytic complex involved in RNA processing and turnover. It consists of a nine‐subunit catalytically inert core that serves a structural function and participates in substrate recognition. Best defined in Saccharomyces cerevisiae, enzymatic activity comes from the associated subunits Dis3p (Rrp44p) and Rrp6p. The former is a nuclear and cytoplasmic RNase II/R‐like enzyme, which possesses both processive exo‐ and endonuclease activities, whereas the latter is a distributive RNase D‐like nuclear exonuclease. Although the exosome core is highly conserved, identity and arrangements of its catalytic subunits in different vertebrates remain elusive. Here, we demonstrate the association of two different Dis3p homologs—hDIS3 and hDIS3L—with the human exosome core. Interestingly, these factors display markedly different intracellular localizations: hDIS3 is mainly nuclear, whereas hDIS3L is strictly cytoplasmic. This compartmental distribution reflects the substrate preferences of the complex in vivo. Both hDIS3 and hDIS3L are active exonucleases; however, only hDIS3 has retained endonucleolytic activity. Our data suggest that three different ribonucleases can serve as catalytic subunits for the exosome in human cells. 相似文献
993.
U Pedersen-Bjergaard L B Nielsen K Jensen L Edvinsson I Jansen J Olesen 《Peptides》1991,12(2):333-337
Calcitonin gene-related peptide (CGRP) was injected alone and in combination with substance P (SP) or neurokinin A (NKA) into the forearm skin and temporal muscle of human volunteers. In the skin, 50 pmol of CGRP induced a wheal response and a delayed erythema. No pain was recorded. No interaction between CGRP and SP or NKA was observed. In the temporal muscle, 200 pmol of CGRP alone did not induce pain or tenderness but, in combination with SP or NKA, CGRP elicited a significant pain sensation. It is concluded that CGRP may be involved in neurogenic inflammation and that only SP, of the three peptides present in nociceptive C fibers, seems to be of major importance in relation to cutaneous nociception. Simultaneous neurogenic release of CGRP and other neuropeptides in skeletal muscle may induce myofascial pain. 相似文献
994.
Nielbo S Thomsen JK Graversen JH Jensen PH Etzerodt M Poulsen FM Thøgersen HC 《Biochemistry》2004,43(27):8636-8643
Tetranectin is a homotrimeric protein containing a C-type lectin-like domain. This domain (TN3) can bind calcium, but in the absence of calcium, the domain binds a number of kringle-type protein ligands. Two of the calcium-coordinating residues are also critical for binding plasminogen kringle 4 (K4). The structure of the calcium free-form of TN3 (apoTN3) has been determined by NMR. Compared to the structure of the calcium-bound form of TN3 (holoTN3), the core region of secondary structural elements is conserved, while large displacements occur in the loops involved in calcium or K4 binding. A conserved proline, which was found to be in the cis conformation in holoTN3, is in apoTN3 predominantly in the trans conformation. Backbone dynamics indicate that, in apoTN3 especially, two of the three calcium-binding loops and two of the three K4-binding residues exhibit increased flexibility, whereas no such flexibility is observed in holoTN3. In the 20 best nuclear magnetic resonance structures of apoTN3, the residues critical for K4 binding span a large conformational space. Together with the relaxation data, this indicates that the K4-ligand-binding site in apoTN3 is not preformed. 相似文献
995.
Enhanced fluorescence resonance energy transfer between spectral variants of green fluorescent protein through zinc-site engineering 总被引:2,自引:0,他引:2
Although spectral variants of GFP should in theory be suited for fluorescence resonance energy transfer (FRET) and therefore suited for studies of protein-protein interactions, the unfavorable location of the fluorophore 15 A deep inside the GFP molecule has especially impaired this application. Here, metal-ion site engineering around the dimerization interface known from the X-ray structure of GFP is applied to the cyan and the yellow spectral variant of GFP to stabilize the heterodimeric form of these molecules and thereby increase FRET signaling. The FRET signal, determined as the ratio between the maximal emission for the yellow variant, 530 nm, and the cyan variant, 475 nm, during excitation of the cyan variant at 433 nm was increased up to 8-10-fold in the presence of 10(-4) M ZnCl2 by engineering of two symmetric metal-ion sites being either bidentate or tridentate. A similar increase in FRET signaling was however obtained in a pair of molecules in which a single bidentate metal-ion site was generated by introducing a zinc-binding residue in each of the two spectral variants of GFP and therefore creating an obligate heterodimeric pair. It is concluded that FRET signaling between spectral variants of GFP can be increased by stabilizing dimer formation and especially by favoring heterodimer formation in this case performed by metal-ion site engineering. 相似文献
996.
The tightly bound calcium of MauG is required for tryptophan tryptophylquinone cofactor biosynthesis
Shin S Feng M Chen Y Jensen LM Tachikawa H Wilmot CM Liu A Davidson VL 《Biochemistry》2011,50(1):144-150
The diheme enzyme MauG catalyzes a six-electron oxidation required for posttranslational modification of a precursor of methylamine dehydrogenase (preMADH) to complete the biosynthesis of its protein-derived tryptophan tryptophylquinone (TTQ) cofactor. The crystal structure of the MauG-preMADH complex revealed the presence of a Ca(2+) in proximity to the two hemes [Jensen, L. M. R., Sanishvili, R., Davidson, V. L., and Wilmot, C. M. (2010) Science 327, 1392-1394]. This Ca(2+) did not readily dissociate; however, after extensive treatment with EGTA or EDTA MauG was no longer able to catalyze TTQ biosynthesis and exhibited altered absorption and resonance Raman spectra. The changes in spectral features are consistent with Ca(2+)-dependent changes in heme spin state and conformation. Addition of H(2)O(2) to the Ca(2+)-depleted MauG did not yield spectral changes characteristic of formation of the bis-Fe(IV) state which is stabilized in native MauG. After addition of Ca(2+) to the Ca(2+)-depleted MauG, full TTQ biosynthesis activity and reactivity toward H(2)O(2) were restored, and the spectral properties returned to those of native MauG. Kinetic and equilibrium studies of Ca(2+) binding to Ca(2+)-depleted MauG indicated a two-step mechanism. Ca(2+) initially reversibly binds to Ca(2+)-depleted MauG (K(d) = 22.4 μM) and is followed by a relatively slow (k = 1.4 × 10(-3) s(-1)) but highly favorable (K(eq) = 4.2) conformational change, yielding an equilibrium dissociation constant K(d,eq) value of 5.3 μM. The circular dichroism spectra of native and Ca(2+)-depleted MauG were essentially the same, consistent with Ca(2+)-induced conformational changes involving domain or loop movements rather than general unfolding or alteration of secondary structure. These results are discussed in the context of the structures of MauG and heme-containing peroxidases. 相似文献
997.
998.
999.
Heidarsson PO Bjerrum-Bohr IJ Jensen GA Pongs O Finn BE Poulsen FM Kragelund BB 《Journal of molecular biology》2012,417(1-2):51-64
Neuronal calcium sensor 1 (NCS-1) and orthologs are expressed in all organisms from yeast to humans. In the latter, NCS-1 plays an important role in neurotransmitter release and interacts with a plethora of binding partners mostly through a large solvent-exposed hydrophobic crevice. The structural basis behind the multispecific binding profile is not understood. To begin to address this, we applied NMR spectroscopy to determine the solution structure of calcium-bound human NCS-1. The structure in solution demonstrates interdomain flexibility and, in the absence of a binding partner, the C-terminal tail residues occupy the hydrophobic crevice as a ligand mimic. A variant with a C-terminal tail deletion shows lack of a defined structure but maintained cooperative unfolding and dramatically reduced global stability. The results suggest that the C-terminal tail is important for regulating the conformational stability of the Ca(2+)-activated state. Furthermore, a single amino acid mutation that was recently diagnosed in a patient with autistic spectrum disorder was seen to affect the C-terminal tail and binding crevice in NCS-1. 相似文献
1000.
Five strains of pink-pigmented, facultatively methylotrophic bacteria (PPFM) isolated from plant surfaces and grown in different carbon sources, were fixed, embedded and sectioned for examination with the electron microscope. The strains studied represented the two mainsub-groups, those that can use carbohydrates and those that can not use carbohydrates as a sole carbon and energy source. All of the isolates examined, produced crystalloid inclusions, internal membranous vesicles and internal membranous sheets although the number of cells with inclusions, varied with the carbon source and specific strain. Polybetahydroxybutyrate and polyphosphate bodies were observed in all strains, with all carbon sources used for growing cells which includes methanol, formate and glycerol. Isolates that could use glucose accumulated polyglucoside granules but not when other carbon sources were provided. The relationship of these inclusions to growth conditions is discussed. 相似文献