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J F Briat

Explore the profile of J F Briat including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 61
Citations 1546
Followers 0
Related Specialties
Biochemistry
Biology
Molecular Biology
Top 10 Co-Authors
J P Laulhere
S Lobreaux
R Mache
A M Lescure
O Massenet
A M Laboure
M Lebrun
O Van Wuytswinkel
C Curie
G Vansuyt
Published In
Biochem J
J Biol Chem
Eur J Biochem
Plant Mol Biol
Plant J
Affiliations
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Recent Articles
1.
CORRECTION: IRT1, an arabidopsis transporter essential for iron uptake from the soil and for plant growth
Vert G, Grotz N, Dedaldechamp F, Gaymard F, Guerinot M, Briat J, et al.
Plant Cell . 2021 Apr; 33(2):439-440. PMID: 33866371
No abstract available.
2.
Chloroplast RNA polymerase from spinach: purification and DNA-binding proteins
Lerbs S, Briat J, Mache R
Plant Mol Biol . 2013 Dec; 2(2):67-74. PMID: 24318138
Spinach DNA dependent RNA polymerase was purified from isolated chloroplasts by two different procedures. Analysis of the protein composition of the two preparations by SDS-polyacrylamide gel electrophoresis always shows six...
3.
Transcription study of the genes encoded in the region of the junction between the large single copy and the inverted repeat A of spinach chloroplast DNA
Thomas F, Zeng G, Mache R, Briat J
Plant Mol Biol . 2013 Nov; 10(5):447-57. PMID: 24277592
The expression of the psbA, trnH-GUG and rps19' genes from spinach chloroplasts, coding respectively for the 32 kDa protein, the tRNA(His) (GUG), and the putative ribosomal protein CS19', has been...
4.
Sequence organization of the chloroplast ribosomal spacer ofSpinacia oleracea including the 3' end of the 16S rRNA and the 5' end of the 23S rRNA
Massenet O, Martinez P, Seyer P, Briat J
Plant Mol Biol . 2013 Nov; 10(1):53-63. PMID: 24277463
The 2201-bp spacer between the chloroplast ribosomal 16S and 23S genes ofSpinacia oleracea was sequenced. It contains the genes of the tRNA(Ile) (GAU) and tRNA(Ala) (UGC) which are both interrupted...
5.
Characterization and properties of the spinach chloroplast transcriptionally active chromosome isolated at high ionic strength
Lebrun M, Briat J, Laulhere J
Planta . 2013 Nov; 169(4):505-12. PMID: 24232757
The transcriptionally active chromosome (TAC) of spinach (Spinacia oleracea L.) chloroplasts has been isolated at a high ionic strength, with low mechanical shearing, by glycerol gradient centrifugation. The properties of...
6.
Structure and differential expression of the four members of the Arabidopsis thaliana ferritin gene family
Petit J, Briat J, Lobreaux S
Biochem J . 2001 Oct; 359(Pt 3):575-82. PMID: 11672431
Four ferritin genes are found within the complete sequence of the Arabidopsis thaliana genome. All of them are expressed and their corresponding cDNA species have been cloned. The polypeptide sequences...
7.
Arabidopsis IRT2 gene encodes a root-periphery iron transporter
Vert G, Briat J, Curie C
Plant J . 2001 Jun; 26(2):181-9. PMID: 11389759
Iron uptake from the soil is a tightly controlled process in plant roots, involving specialized transporters. One such transporter, IRT1, was identified in Arabidopsis thaliana and shown to function as...
8.
Nickel resistance and chromatin condensation in Saccharomyces cerevisiae expressing a maize high mobility group I/Y protein
FORZANI C, Loulergue C, Lobreaux S, Briat J, Lebrun M
J Biol Chem . 2001 Mar; 276(20):16731-8. PMID: 11278346
Expression of a maize cDNA encoding a high mobility group (HMG) I/Y protein enables growth of transformed yeast on a medium containing toxic nickel concentrations. No difference in the nickel...
9.
Regulation of plant ferritin synthesis: how and why
Briat J, Lobreaux S, Grignon N, Vansuyt G
Cell Mol Life Sci . 2001 Feb; 56(1-2):155-66. PMID: 11213255
Plant ferritins are key iron-storage proteins that share important structural and functional similarities with animal ferritins. However, specific features characterize plant ferritins, among which are plastid cellular localization and transcriptional...
10.
Maize yellow stripe1 encodes a membrane protein directly involved in Fe(III) uptake
Curie C, Panaviene Z, Loulergue C, Dellaporta S, Briat J, WALKER E
Nature . 2001 Feb; 409(6818):346-9. PMID: 11201743
Frequently, crop plants do not take up adequate amounts of iron from the soil, leading to chlorosis, poor yield and decreased nutritional quality. Extremely limited soil bioavailability of iron has...