Luciana Dente scite author profile

We have constructed a series of plasmids, the pEMBL family, characterized by the presence of 1) the bla gene as selectable marker, 2) a short segment coding for the alpha-peptide of beta-galactosidase and containing a multiple cloning sites polylinker, 3) the intragenic region of phage F1. pEMBL plasmids have the property of being encapsidated as single stranded DNA, upon superinfection with phage F1. These vectors have been used successfully for DNA sequencing with the dideoxy-method, and can be used for any other purpose for which M13 derivatives are used. However, the pEMBL plasmids have the advantage of being smaller than M13 vectors, and the purification of the DNA is simpler. In addition, and most importantly, long inserts have a higher stability in pEMBL plasmids than M13 vectors.

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Structure and expression of the genes coding for human alpha 1-acid glycoprotein.

Dente¹,

Pizza²,

Metspalu³

et al. 1987

The EMBO Journal

183

159

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alpha 1‐acid glycoprotein (alpha AGP) is a well‐characterized human plasma protein. Its structural properties have been studied for many years but little is known about its function. Amino acid sequence analysis of purified human alpha AGP from plasma pooled from several individuals showed considerable heterogeneity. We have cloned the genomic DNA segment encoding alpha AGP and we show that it contains three adjacent alpha AGP coding regions, AGP‐A, B and B‘, identical in exon–intron organization but with slightly different coding potential. These results account for the heterogeneity observed by protein sequencing. Southern blot analysis indicates that the cloned cluster contains all the alpha AGP coding sequences present in the human genome. The larger majority of alpha AGP mRNA in human liver is transcribed from AGP‐A, whose promoter and cap site have been determined while the level of AGP‐B and B’ mRNA in human liver is very low. Using Hep3B hepatoma cells as a model system for the in vitro study of the acute phase reaction, we show that only AGP‐A is strongly induced by treatment with culture medium of LPS stimulated monocytes.

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The orientation of the neuronal growth process can be directed via magnetic nanoparticles under an applied magnetic field

Riggio¹,

Calatayud²,

Giannaccini³

et al. 2014

Nanomedicine: Nanotechnology, Biology and Medicine

103

119

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Extremely Low Forces Induce Extreme Axon Growth

et al. 2020

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Stretch-growth has been defined as a process that extends axons via the application of mechanical forces. In the present article, we used a protocol based on magnetic nanoparticles (NPs) for labeling the entire axon tract of hippocampal neurons, and an external magnetic field gradient to generate a dragging force. We found that the application of forces below 10 pN induces growth at a rate of 0.66 6 0.02 mm h 21 pN 21 . Calcium imaging confirmed the strong increase in elongation rate, in comparison with the condition of tip-growth. Enhanced growth in stretched axons was also accompanied by endoplasmic reticulum (ER) accumulation and, accordingly, it was blocked by an inhibition of translation. Stretch-growth was also found to stimulate axonal branching, glutamatergic synaptic transmission, and neuronal excitability. Moreover, stretched axons showed increased microtubule (MT) density and MT assembly was key to sustaining stretch-growth, suggesting a possible role of tensile forces in MT translocation/assembly. Additionally, our data showed that stretched axons do not respond to BDNF signaling, suggesting interference between the two pathways. As these extremely low mechanical forces are physiologically relevant, stretch-growth could be an important endogenous mechanism of axon growth, with a potential for designing novel strategies for axonal regrowth.

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Cell-specific expression of a transfected human α1-antitrypsin gene

Ciliberto

Dente

Cortese

1985

Cell

182

110

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Luciana Dente

pEMBL: a new family of single stranded plasmids

Structure and expression of the genes coding for human alpha 1-acid glycoprotein.

The orientation of the neuronal growth process can be directed via magnetic nanoparticles under an applied magnetic field

Extremely Low Forces Induce Extreme Axon Growth

Cell-specific expression of a transfected human α1-antitrypsin gene

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