Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P17931 (
galectin-3
)
2,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the present study, we have constructed a subtraction cDNA library to identify novel genes induced by IFN-gamma in GM-CSF-derived bone marrow macrophage (m phi). M theta were treated with 50 U/ml IFN-gamma for 40, 70 and 140 min to induce expression of early genes regulated by IFN-gamma, and the M phi were pooled. Poly(A)+RNA was prepared from both unactivated and IFN-gamma-stimulated m theta, and cDNA libraries were constructed in lambda ZAP. Genes expressed in common by both m theta populations were removed by subtraction using biotin-avidin precipitation of hybrid complexes. Further selection was performed by differential screening using cDNA prepared from mRNA of unactivated m phi as a probe, followed by colony hybridization to remove sister clones. Of 17 clones from which sequence information was obtained, two appeared to be identical with the murine genes, C10 (clone GM2B1) and
Mac-2
(clone GM2C4) and an additional two clones had high similarity to human cDNAs encoding proteins of
unknown function
. cDNAs containing sequences which did not match published sequences were used to probe Northern blots prepared from both unstimulated and IFN-gamma-activated GM-CSF- and CSF-1-derived m phi. Five clones (GM1A2, GM1B4, GM1F2, GM2A12 and GM2B8) showed enhanced transcript levels following IFN-gamma treatment of GM-CSF-derived m phi, but demonstrated high constitutive transcript levels in CSF-l-derived m phi. In addition, C10 transcripts were constitutively expressed by GM-CSF-derived m phi, but not by CSF-1-derived m phi, even after activation by IFN-gamma. These data suggest that much of the functional heterogeneity of GM-CSF- and CSF-1-derived m phi resides in the differential expression of early genes specifically induced by IFN-gamma.
...
PMID:Differential expression of novel genes by bone marrow-derived macrophage populations. 765 99
The hypoxia-inducible factor 1 (HIF-1) plays a critical role in cellular responses to hypoxia. The aim of the present study was to evaluate which genes are induced by hypoxia, and whether this induction is mediated by HIF-1, by expression microarray analysis of wt and HIF-1alpha null mouse fibroblasts. Forty-five genes were up-regulated by hypoxia and 40 (89%) of these were regulated by HIF-1. Of the 114 genes down-regulated by hypoxia, 19 (17%) were HIF-1-dependent. All glycolytic enzymes were strongly up-regulated by hypoxia in a HIF-1-dependent manner. Genes already known to be related to hypoxia, such as glucose transporter 1, BNIP3, and hypoxia-induced gene 1, were induced. In addition, multiple new HIF-1-regulated genes were identified, including genes involved in metabolism (adenylate kinase 4, galactokinase), apoptosis (
galectin-3
and gelsolin), and invasion (RhoA). Genes down-regulated by hypoxia were involved in cytoskeleton maintenance (Rho kinase), mRNA processing (heterogeneous nuclear ribonucleoprotein H1 and splicing factor), and DNA repair (REV3). Furthermore, seven cDNAs from genes with
unknown function
or expressed sequence tags (ESTs) were up-regulated and 27 such cDNAs were down-regulated. In conclusion, hypoxia causes down- rather than up-regulation of gene expression and HIF-1 seems to play a major role in the regulation of hypoxia-induced genes.
...
PMID:Up-regulation of gene expression by hypoxia is mediated predominantly by hypoxia-inducible factor 1 (HIF-1). 1590 72
Soybean lecithins are seeing increasing use in industry as an emulsifier and food additive. They are also a growing source of human food allergies, which arise principally from the proteins fractionating with the lecithin fraction during manufacture. A previous study (Gu, X.; Beardslee, T.; Zeece, M.; Sarath, G.; Markwwell, J. Int Arch. Allergy Immunol. 2001, 126, 218-225) identified several allergenic proteins in soybean lecithins and a soybean
IgE-binding protein
termed P39 was discovered. However, very little was known about this protein except that it was coded by the soybean genome. This paper investigates key biological and immunological properties of this potential soybean lecithin allergen. P39 is encoded by a multigene family in soybeans and in several other higher plants. The soybean P39-1 protein and its essentially indistinguishable homologue, P39-2, have been cloned and studied. These proteins and their homologues belong to a family of plant-specific proteins of
unknown function
. In soybeans, P39-1 is seed specific, and its transcript levels are highest in developing seeds and decline during seed maturation. In contrast, P39 protein was detectable only in the fully mature, dry seed. Subcellular fractionation revealed that P39 protein was strongly associated with oil bodies; however, immunolocalization indicated P39 was distributed in the matrix of the protein storage vacuoles, suggesting that association with oil bodies was an artifact arising from the extraction procedure. By the use of recombinant techniques it has also been documented that IgE-binding epitopes are present on several different portions of the P39-1 polypeptide.
...
PMID:P39, a novel soybean protein allergen, belongs to a plant-specific protein family and is present in protein storage vacuoles. 1828 3
