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result(s) for
"RETICULUM ENDOPLASMIQUE"
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A case report of giant smooth endoplasmic reticulum clusters in oocytes, post-ICSI
2025
This particular case study examines the association between oocyte morphology and assisted reproductive technology (ART), particularly, the smooth endoplasmic reticulum clusters (sERCs). It describes an extraordinary case in which 80% of the mature oocytes had giant sERCs, which raised concerns about the oocyte quality and the resultant embryonic development and clinical prognosis It concerned a patient who underwent intracytoplasmic sperm injection (ICSI). Two embryos, derived from oocytes with sERCs, were transferred on day 3 following ICSI and sERCs became the focus. The results covered the entire continuum of fertilization, embryonic maturation, and clinical outcomes, the endpoint of which was a successful live birth. Such results demonstrate the complex background between the oocyte dysmorphia and reproductive performance, still, in ART, it is possible that considerable dysmorphia is not necessarily a negative prognostic factor. Further studies are needed to address the oocyte dysmorphia and ART's changes
Cette étude de cas examine le lien entre la morphologie ovocytaire et les techniques de procréation médicalement assistée (PMA), notamment les amas de réticulum endoplasmique lisse (ACRs). Elle décrit un cas exceptionnel où 80 % des ovocytes matures présentaient des ACRs géants, ce qui a soulevé des inquiétudes quant à la qualité ovocytaire, au développement embryonnaire et au pronostic clinique. Il s'agissait d'une patiente ayant bénéficié d'une injection intracytoplasmique de spermatozoïdes (ICSI). À l'exception d'une morphologie ovocytaire inhabituelle, deux embryons ont été transférés au troisième jour suivant l'ICSI, et les ACRs ont été utilisés. Les résultats ont couvert l'ensemble du continuum de la fécondation, de la maturation embryonnaire et des résultats cliniques, dont le critère d'évaluation était une naissance vivante réussie. Ces résultats démontrent le contexte complexe entre la dysmorphie ovocytaire et la performance reproductive. Cependant, en PMA, il est possible qu'une dysmorphie importante ne soit pas nécessairement un facteur pronostique négatif. Des études complémentaires sont nécessaires pour traiter la dysmorphie ovocytaire et les modifications de l'ART.
Journal Article
Protein Disulfide Isomerase-2 of Arabidopsis Mediates Protein Folding and Localizes to Both the Secretory Pathway and Nucleus, Where It Interacts with Maternal Effect Embryo Arrest Factor
by
Cho, E.J., University of Hawaii, USA
,
Yuen, Christen Y.L., University of Hawaii, USA
,
Andrew Staehelin, L., University of Colorado, USA
in
Biochemistry
,
Biomedical and Life Sciences
,
Biomedicine
2011
Protein disulfide isomerase (PDI) is a thiodisulfide oxidoreductase that catalyzes the formation, reduction and rearrangement of disulfide bonds in proteins of eukaryotes. The classical PDI has a signal peptide, two CXXC-containing thioredoxin catalytic sites (a, a'), two noncatalytic thioredoxin fold domains (b, b'), an acidic domain (c) and a C-terminal endoplasmic reticulum (ER) retention signal. Although PDI resides in the ER where it mediates the folding of nascent polypeptides of the secretory pathway, we recently showed that PDI5 of Arabidopsis thaliana chaperones and inhibits cysteine proteases during trafficking to vacuoles prior to programmed cell death of the endothelium in developing seeds. Here we describe Arabidopsis PDI2, which shares a primary structure similar to that of classical PDI. Recombinant PDI2 is imported into ER-derived microsomes and complements the E. coli protein-folding mutant, dsbA. PDI2 interacted with proteins in both the ER and nucleus, including ER-resident protein folding chaperone, BiP1, and nuclear embryo transcription factor, MEE8. The PDI2-MEE8 interaction was confirmed to occur in vitro and in vivo. Transient expression of PDI2-GFP fusions in mesophyll protoplasts resulted in labeling of the ER, nucleus and vacuole. PDI2 is expressed in multiple tissues, with relatively high expression in seeds and root tips. Immunoelectron microscopy with GFP- and PDI2-specific antisera on transgenic seeds (PDI2-GFP) and wild type roots demonstrated that PDI2 was found in the secretory pathway (ER, Golgi, vacuole, cell wall) and the nuclei. Our results indicate that PDI2 mediates protein folding in the ER and has new functional roles in the nucleus.
Journal Article
Transport of storage proteins to protein storage vacuoles is mediated by large precursor-accumulating vesicles
1998
Novel vesicles that accumulate large amounts of proprotein precursors of storage proteins were purified from maturing pumpkin seeds. These vesicles were designated precursor-accumulating (PAC) vesicles and had diameters of 200 to 400 nm. They contained an electron-dense core of storage proteins surrounded by an electron-translucent layer, and some vesicles also contained small vesicle-like structures. Immunocytochemical analysis revealed numerous electron-dense aggregates of storage proteins within the endoplasmic reticulum. It is likely that these aggregates develop into the electron-dense cores of the PAC vesicles and then leave the endoplasmic reticulum. Immunocytochemical analysis also showed that complex glycans are associated with the peripheral region of PAC vesicles but not the electron-dense cores, indicating that Golgi-derived glycoproteins are incorporated into the PAC vesicles. These results suggest that the unique PAC vesicles might mediate a transport pathway for insoluble aggregates of storage proteins directly to protein storage vacuoles
Journal Article
Proteasome-dependent endoplasmic reticulum-associated protein degradation: an unconventional route to a familiar fate
by
Werner, E.D. (University of Nevada, Reno, NV.)
,
McCracken, A.A
,
Brodsky, J.L
in
Acetylcysteine
,
Acetylcysteine - analogs & derivatives
,
Acetylcysteine - pharmacology
1996
Until recently, the degradation of aberrant and unassembled proteins retained in the endoplasmic reticulum (ER) was thought to involve unidentified ER-localized proteases. We now show that the ER-associated degradation (ERAD) of two mutant proteins that accumulate in the ER lumen is inhibited in a proteasome-defective yeast strain and when cytosol from this mutant is used in an in vitro assay. In addition, ERAD is limited in vitro in the presence of the proteasome inhibitors, 3,4-dichloroisocoumarin and lactacystin. Furthermore, we find that an ERAD substrate is exported from ER-derived microsomes, and the accumulation of exported substrate is 2-fold greater when proteasome mutant cytosol is used in place of wild-type cytosol. We conclude that lumenal ERAD substrates are exported from the yeast ER to the cytoplasm for degradation by the proteasome complex
Journal Article
Changing patterns of localization of the tobacco mosaic virus movement protein and replicase to the endoplasmic reticulum and microtubules during infection
by
Heinlein, M. (Friedrich Miescher-Institut, Basel, Switzerland.)
,
Padgett, H.S
,
Beachy, R.N
in
ANIMAL PROTEINS
,
Antibodies
,
BIOCHEMISTRY
1998
Tobacco mosaic virus (TMV) derivatives that encode movement protein (MP) as a fusion to the green fluorescent protein (MP:GFP) were used in combination with antibody staining to identify host cell components to which MP and replicase accumulate in cells of infected Nicotiana benthamiana leaves and in infected BY-2 protoplasts. MP:GFP and replicase colocalized to the endoplasmic reticulum (ER; especially the cortical ER) and were present in large, irregularly shaped, ER-derived structures that may represent \"viral factories.\" The ER-derived structures required an intact cytoskeleton, and microtubules appeared to redistribute MP:GFP from these sites during late stages of infection. In leaves, MP:GFP accumulated in plasmodesmata, whereas in protoplasts, the MP:GFP was targeted to distinct, punctate sites near the plasma membrane. Treating protoplasts with cytochalasin D and brefeldin A at the time of inoculation prevented the accumulation of MP:GFP at these sites. It is proposed that the punctate sites anchor the cortical ER to plasma membrane and are related to sites at which plasmodesmata form in walled cells. Hairlike structures containing MP:GFP appeared on the surface of some of the infected protoplasts and are reminiscent of similar structures induced by other plant viruses. We present a model that postulates the role of the ER and cytoskeleton in targeting the MP and viral ribonucleoprotein from sites of virus synthesis to the plasmodesmata through which infection is spread.
Journal Article
NtbZIP60, an endoplasmic reticulum-localized transcription factor, plays a role in the defense response against bacterial pathogens in Nicotiana tabacum
by
Yamaguchi, K
,
Ozaki, R
,
Koizumi, N
in
AGENT PATHOGENE
,
Amino Acid Sequence
,
ARABIDOPSIS THALIANA
2008
A spermine-based signal transduction pathway plays a defensive role against incompatible pathogens. We identified a novel spermine-responsive cDNA from Nicotiana tabacum that encodes a basic region/leucine zipper protein with a putative transmembrane domain. Identity to Arabidopsis thaliana AtbZIP60 was sufficiently high to name the novel cDNA NtbZIP60. Expression analysis revealed that NtbZIP60 is a component of the spermine-signal pathway, and is also involved in the unfolded protein response (UPR), as demonstrated for AtbZIP60. The gene product, NtbZIP60, localizes to the endoplasmic reticulum (ER) in plant cells; once the putative transmembrane domain is eliminated from the intact protein, it targets the nucleus. The putative processed form of NtbZIP60 transactivates target genes through binding to plant-specific UPR cis-elements. Expression of NbbZIP60, an NtbZIP60 ortholog in Nicotiana benthamiana, was significantly up-regulated at 6 h and later time points upon infection with the non-host pathogen Pseudomonas cichorii, while it was unaffected by infection with the compatible pathogen Pseudomonas syringae pv. tabaci. Furthermore, NbbZIP60-silenced N. benthamiana plants allowed higher multiplication of P. cichorii compared to the control plants. Taken together, the results suggest that this ER-localized transcription factor is involved in the spermine-signal transduction pathway and plays an important role in plant innate immunity.
Journal Article
Engineering secondary metabolism in maize cells by ectopic expression of transcription factors
by
Butler, L
,
Grotewold, E. (Cold Spring Harbor Laboratory, NY.)
,
Maddock, S
in
ACIDE FERULIQUE
,
ACIDO FERULICO
,
ANTHOCYANE
1998
Manipulation of plant natural product biosynthesis through genetic engineering is an attractive but technically challenging goal. Here, we demonstrate that different secondary metabolites can be produced in cultured maize cells by ectopic expression of the appropriate regulatory genes. Cell lines engineered to express the maize transcriptional activators C1 and R accumulate two cyanidin derivatives, which are similar to the predominant anthocyanin found in differentiated plant tissues. In contrast, cell lines that express P accumulate various 3-deoxy flavonoids. Unexpectedly, P-expressing cells in culture also accumulate phenylpropanoids and green fluorescent compounds that are targeted to different subcellular compartments. Two endogenous biosynthetic genes (c2 and a1, encoding chalcone synthase and flavanone/dihydroflavonol reductase, respectively) are independently activated by ectopic expression of either P or C1/R, and there is a dose-response relationship between the transcript level of P and the degree to which c2 or a1 is expressed. Our results support a simple model showing how the gene encoding P may act as a quantitative trait locus controlling insecticidal C-glycosyl flavone level in maize silks, and they suggest how p1 might confer a selective advantage against insect predation in maize
Journal Article
The Arabidopsis DIMINUTO/DWARF1 gene encodes a protein involved in steroid synthesis
by
Noguchi, T
,
Takatsuto, S
,
Nomura, T
in
24-METHYLDESMOSTEROL
,
24-METHYLENECHOLESTEROL
,
Amino Acid Sequence
1998
We have identified the function of the Arabidopsis DIMINUTO/DWARF1 (DIM/DWF1) gene by analyzing the dim mutant, a severe dwarf with greatly reduced fertility. Both the mutant phenotype and gene expression could be rescued by the addition of exogenous brassinolide. Analysis of endogenous sterols demonstrated that dim accumulates 24-methylenecholesterol but is deficient in campesterol, an early precursor of brassinolide. In addition, we show that dim is deficient in brassinosteroids as well. Feeding experiments using deuterium-labeled 24-methylenecholesterol and 24-methyldesmosterol confirmed that DIM/DWF1 is involved in both the isomerization and reduction of the delta 24(28) bond. This conversion is not required in cholesterol biosynthesis in animals but is a key step in the biosynthesis of plant sterols. Transient expression of a green fluorescent protein-DIM/DWF1 fusion protein and biochemical experiments showed that DIM/DWF1 is an integral membrane protein that most probably is associated with the endoplasmic reticulum
Journal Article
Endoplasmic reticulum membrane localization of Rce1p and Ste24p, yeast proteases involved in carboxyl-terminal CAAX protein processing and amino-terminal a-factor cleavage
by
Michaelis, S
,
Fujimura-Kamada, K
,
Tam, A
in
ACTIVIDAD ENZIMATICA
,
ACTIVITE ENZYMATIQUE
,
Amino acids
1998
Proteins terminating in the CAAX motif, for example Ras and the yeast a-factor mating pheromone, are prenylated, trimmed of their last three amino acids, and carboxyl-methylated. The enzymes that mediate these activities, collectively referred to as CAAX processing components, have been identified genetically in Saccharomyces cerevisiae. Whereas the Ram1p/Ram2p prenyltransferase is a cytosolic soluble enzyme, sequence analysis predicts that the other CAAX processing components, the Rce1p and Ste24p proteases and the Ste14p methyltransferase, contain multiple membrane spans. To determine the intracellular site(s) at which CAAX processing occurs, we have examined the localization of the CAAX proteases Rce1p and Ste24p by subcellular fractionation and indirect immunofluorescence. We find that both of these proteases are associated with the endoplasmic reticulum (ER) membrane. In addition to having a role in CAAX processing, the Ste24p protease catalyzes the first of two cleavage steps that remove the amino-terminal extension from the a-factor precursor, suggesting that the first aminoterminal processing step of a-factor maturation also occurs at the ER membrane. The ER localization of Ste24p is consistent with the presence of a carboxyl-terminal dilysine ER retrieval motif, although we find that mutation of this motif does not result in mislocalization of Ste24p. Because the ER is not the ultimate destination for a-factor or most CAAX proteins, our results imply that a mechanism must exist for the intracellular routing of CAAX proteins from the ER membrane to other cellular sites
Journal Article
Tobacco mosaic virus infection induces severe morphological changes of the endoplasmic reticulum
by
Beachy, R.N
,
Reichel, C. (The Scripps Research Institute, La Jolla, CA.)
in
ANIMAL PROTEINS
,
Antibodies
,
BIOCHEMISTRY
1998
The tobacco mosaic virus (TMV) movement protein (MP) facilitates transport of virus infection between adjacent cells by modifying plasmodesmata. Previous studies suggested that the cytoskeleton and the endomembrane system are involved in this transport. We examined the effects of TMV infection on the endoplasmic reticulum (ER) in transgenic Nicotiana benthamiana that accumulate the green fluorescent protein (GFP) in the ER. Fluorescence microscopy was used to show that early in infection the ER undergoes dramatic morphological changes that include the conversion of tubular ER into large aggregates that revert to tubular ER in later stages of infection. These changes parallel MP accumulation and degradation. Furthermore, a fusion protein comprising MP fused to GFP accumulates in or on these large aggregates of ER. Expression of MP-GFP in the absence of virus infection led to the production of fluorescent aggregates of the same apparent form and size. Microsomes isolated from infected leaves contain MP. We show that the MP appears to behave as an integral ER membrane protein and is exposed on the cytosolic face of the ER. The importance of the association of MP with ER and its possible role in intracellular and intercellular spread of infection is discussed.
Journal Article