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Query: UNIPROT:P11021 (
BiP
)
2,049
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A DNA sequence representing the promoter region of the Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco) luminal binding protein PmBiP (PmBiPPro1) was isolated using inverse polymerase chain reaction (iPCR). Transient expression analysis of PmBiPPro1 fused to the
beta-glucuronidase
(GUS) reporter gene demonstrated that this promoter is functional in germinating Douglas-fir embryos. Transgenic Arabidopsis plants containing PmBiPPro1:GUS reporter gene constructs revealed strong staining associated with actively dividing/expanding cells and secretory tissues in developing seedlings. Wounding of cotyledons resulted in an increase in local staining associated with cells surrounding the wound site. Deletion analysis showed that elements necessary for basal-level expression reside within a -261 to +16 bp region, although upstream elements are necessary for higher-level expression in germinating Douglas-fir embryos, developing Arabidopsis seedlings and wounded cotyledons. Correlation of the observed expression pattern with the known function of
BiP
suggests that pathways controlling expression are highly conserved between angiosperms and gymnosperms.
...
PMID:The Douglas-fir BiP promoter is functional in Arabidopsis and responds to wounding. 1217 39
The binding protein
BiP
is an endoplasmic reticulum (ER)-resident member of the HSP70 stress-related protein family, which is essential for the constitutive function of the ER. In addition to responding to a variety of environmental stimuli, plant
BiP
exhibits a tissue-specific regulation. We have isolated two soybean
BiP
genomic clones, designated gsBiP6 and gsBiP9, and different extensions of their 5' flanking sequences were fused to
beta-glucuronidase
(GUS) reporter gene and introduced into Nicotiana tabacum by Agrobacterium tumefaciens-mediated transformation. Transgenic plants displayed prominent GUS activity in the vascular bundles of roots and shoots as well as in regions of intense cell division, such as procambial region and apical meristems. Promoter deletion analyses identified two cis-regulatory functional domains that are important for the spatially-regulated activation of
BiP
expression under normal plant development. While an AT-rich enhancer-like sequence, designated cis-acting regulatory domain 1, CRD1 (-358 to -211, on gsBiP6), activated expression of the
BiP
minimal promoter in all organs analyzed,
BiP
promoter activity in meristematic tissues and phloem cells required the presence of a second activating domain, CRD2 (-211 to -80). Apparently, the CRD2 sequence also harbors negative cis-acting elements, because removal of this region caused activation of gsBiP6 promoter in parenchymatic xylem rays. These results suggest that the tissue-specific control of
BiP
gene expression requires a complex integration of multiple cis-acting regulatory elements on the promoter.
...
PMID:Tissue-specific regulation of BiP genes: a cis-acting regulatory domain is required for BiP promoter activity in plant meristems. 1237 6
BiP
is a molecular chaperone induced in the unfolded protein response (UPR). In mammalian cells,
BiP
is induced by glucose starvation when it is called glucose-regulated protein 78 (GRP78). In Arabidopsis thaliana, however, we demonstrated that
BiP
transcripts decreased with sugar depletion and increased with sugar addition. Transcripts for
beta-glucuronidase
(GUS) driven by
BiP
promoter respond to tunicamycin and sugar, being similar with endogenous
BiP
transcripts in transgenic A. thaliana. When GUS was regulated by P-UPRE, a cis-element responsible for the UPR identified in
BiP
promoter, GUS transcripts were accumulated by sugar starvation. Subsequently, transgenic A. thaliana harboring luciferase (LUC) gene regulated by P-UPRE was analyzed. Sugar depletion also increased LUC activity. It is concluded that
BiP
is induced by sugar independent of the cis-element responsible for the UPR.
...
PMID:Induction of BiP by sugar independent of a cis-element for the unfolded protein response in Arabidopsis thaliana. 1678 68
Many metabolic reactions in the endoplasmic reticulum (ER) require high levels of energy in the form of ATP, which is important for cell viability. Here, we report on an adenine nucleotide transporter residing in the ER membranes of Arabidopsis thaliana (ER-ANT1). Functional integration of ER-ANT1 in the cytoplasmic membrane of intact Escherichia coli cells reveals a high specificity for an ATP/ADP antiport. Immunodetection in transgenic ER-ANT1-C-MYC-tag Arabidopsis plants and immunogold labeling of wild-type pollen grain tissue using a peptide-specific antiserum reveal the localization of this carrier in ER membranes. Transgenic ER-ANT1-promoter-
beta-glucuronidase
Arabidopsis lines show high expression in ER-active tissues (i.e., pollen, seeds, root tips, apical meristems, or vascular bundles). Two independent ER-ANT1 Arabidopsis knockout lines indicate a high physiological relevance of ER-ANT1 for ATP transport into the plant ER (e.g., disruption of ER-ANT1 results in a drastic retardation of plant growth and impaired root and seed development). In these ER-ANT1 knockout lines, the expression levels of several genes encoding ER proteins that are dependent on a sufficient ATP supply (i.e.,
BiP
[for luminal binding protein] chaperones, calreticulin chaperones, Ca2+-dependent protein kinase, and SEC61) are substantially decreased.
...
PMID:Identification of a novel adenine nucleotide transporter in the endoplasmic reticulum of Arabidopsis. 1829 23
