Thomas Hesse scite author profile

An auxin‐binding protein (ABP) cDNA clone was selected from a lambda gt11 cDNA library from corn coleoptiles with highly purified IgGanti ABP. The sequence of 794 bp contains an open reading frame (ORF) of 603 bp, coding for a 22 kd protein. There are indications of a signal peptide of 38 amino acids (von Heijne, G. 1983, Eur. J. Biochem., 133, 17‐21). A N‐glycosylation site can be deduced and a C‐terminal KDEL amino acid sequence is detected. An EcoRI fragment containing the beginning portion of the cDNA with about three quarters of the ORF was used to select cDNA clones from an independently produced lambda gt11 cDNA library of corn coleoptiles. Northern blot analysis with in vitro transcribed biotinylated RNA showed a single band of not more than 850 bases. The full‐length in vitro transcript directed the in vitro synthesis of a protein which is precipitated by IgGanti ABP. Rabbit antibodies raised against a fusion protein detect the ABP as a double band on Western blots. Only the smaller of the two ABP bands is labeled by two different KDEL‐specific IgG preparations.

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Molecular analysis of three maize 22 kDa auxin‐binding protein genes — transient promoter expression and regulatory regions

Schwob

Choi

Simmons

et al. 1993

The Plant Journal

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The site I 22 kDa auxin-binding proteins from maize are encoded by a small gene family comprising at least five members. Here the cloning and molecular analysis of the Zm-ERabp1, Zm-ERabp4, and Zm-ERabp5 genes is presented. All three encode 22-23 kDa proteins displaying a transit peptide, a C-terminal KDEL sequence, as well as glycosylation and auxin-binding sites. The Zm-ERabp4 and Zm-ERabp5 genes are very similar. The Zm-ERabp1 gene encodes a related protein, but its promoter, leader and signal peptide are very different. Northern analysis using gene-specific oligonucleotide probes indicates that Zm-ERabp4 is expressed in leaves and coleoptiles but weakly in roots, whereas Zm-ERabp5 expression is barely detectable in these tissues. RNA-PCR indicated that all three genes are none the less expressed in many tissues. Primer-extension analysis revealed an unusually long (320 bases) Zm-ERabp1 leader containing an 80 codon ORF which, if expressed, would encode a positively charged protein with some similarity to transcription factors. In a transient promoter-reporter gene expression system using maize leaf protoplasts the Zm-ERabp1 promoter is more active than the Zm-ERabp4 and Zm-ERabp5 promoters. Promoter deletion analysis of Zm-ERabp1 has identified a negative regulatory sequence in a region from -364 bp and -130 bp, deletion of which results in about twofold higher expression. This region contains both enhancer- and G-box-related sequences. Deletion of -126 bp to +64 bp, which contains the TATA box and transcription start, results in a large decrease in expression.

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Molecular analysis of an auxin binding protein gene located on chromosome 4 of Arabidopsis.

et al. 1992

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We have isolated a cDNA clone from Arabidopsis, At-ERabpl, for the Arabidopsis auxin binding protein located in the lumen of the endoplasmic reticulum (ER). This cDNA clone codes for a protein related to the major auxin binding protein from maize, Zm-ERabpl. A single open reading frame, 594 bases in length, predicts a protein of 198 amino acid residues and a molecular mass of 22,044 D. The primary amino acid sequence contains an N-terminal hydrophobic signal sequence of 33 amino acids. We demonstrated by in vitro studies that the At-ERabpl protein is translocated into ER-derived microsomes. The protein was processed, and the cleavage site for the N-terminal signal peptide was determined by radiosequencing. The mature protein is composed of 165 amino acid residues, with a molecular mass of 18,641 D. The At-ERabpl protein contains potential N-glycosylation sites ( A~n~~-l l e -S e r and Asnl30-Ser-Thr). In vitro transport studies demonstrated cotranslational glycosylation. Retention within the lumen of the ER correlates with an additional signal located at the C terminus and represented by the amino acids Lys1S6Asp-GIu-Leu, well known to be essential for active retrieval of proteins into the lumen of the ER. DNA gel blot analysis of genomic DNA revealed single hybridizing bands, suggesting that only a single At-ERabpl gene is present in the Arabidopsis genome. Restriction fragment length polymorphism mapping indeed revealed a single locus mapping to chromosome 4.

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Thomas Hesse

Molecular cloning and structural analysis of a gene from Zea mays (L) coding for a putative receptor for the plant hormone auxin

Molecular cloning and structural analysis of a gene from Zea mays (L.) coding for a putative receptor for the plant hormone auxin.

cDNA clones of the auxin-binding protein from corn coleoptiles (Zea mays L.): isolation and characterization by immunological methods.

Molecular analysis of three maize 22 kDa auxin‐binding protein genes — transient promoter expression and regulatory regions

Molecular analysis of an auxin binding protein gene located on chromosome 4 of Arabidopsis.

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