Structure and composition of ferritin cores from pea seed (Pisum sativum)

Vanessa J. Wade; Amyra Treffry; Jean Pierre Laulhère; Erika R. Bauminger; Maud I. Cleton; Stephen Mann; Jean François Briat; Pauline M. Harrison

doi:10.1016/0167-4838(93)90201-2

Structure and composition of ferritin cores from pea seed (Pisum sativum)

Vanessa J. Wade, Amyra Treffry, Jean Pierre Laulhère, Erika R. Bauminger, Maud I. Cleton, Stephen Mann, Jean François Briat, Pauline M. Harrison^*

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

95 Scopus citations

Abstract

Iron cores from native pea seed (Pisum sativum) ferritin have been analysed by electron microscopy and Mössbauer spectroscopy and shown to be amorphous. This correlates with their relatively high phosphate content (Fe:P = 2.83; 1800 Fe, 640 P atoms/molecule). Reconstituted cores obtained by adding iron (2000 Fe atoms/molecule) in the absence of phosphate to pea seed apoferritin were crystalline ferrihydrite. In vitro rates of formation of pea-seed ferritin iron cores were intermediate between those of recombinant human H-chain and horse spleen apoferritin and this may reflect the amino-acid residues of its ferroxidase and putative nucleation centres. The high phosphate content of pea-seed ferritin suggests that this molecule could be involved in both phosphorus and iron storage. The high phosphate concentration round within plastids, from which the molecules were isolated, is a possible source of the ferritin phosphate.

Original language	English
Pages (from-to)	91-96
Number of pages	6
Journal	Biochimica et Biophysica Acta - Proteins and Proteomics
Volume	1161
Issue number	1
DOIs	https://doi.org/10.1016/0167-4838(93)90201-2
State	Published - 15 Jan 1993

Keywords

(pea seed)
Ferritin
Iron storage
Iron-core
Phosphorus storage
Plant ferritin

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10.1016/0167-4838(93)90201-2

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title = "Structure and composition of ferritin cores from pea seed (Pisum sativum)",

abstract = "Iron cores from native pea seed (Pisum sativum) ferritin have been analysed by electron microscopy and M{\"o}ssbauer spectroscopy and shown to be amorphous. This correlates with their relatively high phosphate content (Fe:P = 2.83; 1800 Fe, 640 P atoms/molecule). Reconstituted cores obtained by adding iron (2000 Fe atoms/molecule) in the absence of phosphate to pea seed apoferritin were crystalline ferrihydrite. In vitro rates of formation of pea-seed ferritin iron cores were intermediate between those of recombinant human H-chain and horse spleen apoferritin and this may reflect the amino-acid residues of its ferroxidase and putative nucleation centres. The high phosphate content of pea-seed ferritin suggests that this molecule could be involved in both phosphorus and iron storage. The high phosphate concentration round within plastids, from which the molecules were isolated, is a possible source of the ferritin phosphate.",

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author = "Wade, {Vanessa J.} and Amyra Treffry and Laulh{\`e}re, {Jean Pierre} and Bauminger, {Erika R.} and Cleton, {Maud I.} and Stephen Mann and Briat, {Jean Fran{\c c}ois} and Harrison, {Pauline M.}",

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AU - Wade, Vanessa J.

AU - Treffry, Amyra

AU - Laulhère, Jean Pierre

AU - Bauminger, Erika R.

AU - Cleton, Maud I.

AU - Mann, Stephen

AU - Briat, Jean François

AU - Harrison, Pauline M.

PY - 1993/1/15

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N2 - Iron cores from native pea seed (Pisum sativum) ferritin have been analysed by electron microscopy and Mössbauer spectroscopy and shown to be amorphous. This correlates with their relatively high phosphate content (Fe:P = 2.83; 1800 Fe, 640 P atoms/molecule). Reconstituted cores obtained by adding iron (2000 Fe atoms/molecule) in the absence of phosphate to pea seed apoferritin were crystalline ferrihydrite. In vitro rates of formation of pea-seed ferritin iron cores were intermediate between those of recombinant human H-chain and horse spleen apoferritin and this may reflect the amino-acid residues of its ferroxidase and putative nucleation centres. The high phosphate content of pea-seed ferritin suggests that this molecule could be involved in both phosphorus and iron storage. The high phosphate concentration round within plastids, from which the molecules were isolated, is a possible source of the ferritin phosphate.

AB - Iron cores from native pea seed (Pisum sativum) ferritin have been analysed by electron microscopy and Mössbauer spectroscopy and shown to be amorphous. This correlates with their relatively high phosphate content (Fe:P = 2.83; 1800 Fe, 640 P atoms/molecule). Reconstituted cores obtained by adding iron (2000 Fe atoms/molecule) in the absence of phosphate to pea seed apoferritin were crystalline ferrihydrite. In vitro rates of formation of pea-seed ferritin iron cores were intermediate between those of recombinant human H-chain and horse spleen apoferritin and this may reflect the amino-acid residues of its ferroxidase and putative nucleation centres. The high phosphate content of pea-seed ferritin suggests that this molecule could be involved in both phosphorus and iron storage. The high phosphate concentration round within plastids, from which the molecules were isolated, is a possible source of the ferritin phosphate.

KW - (pea seed)

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KW - Phosphorus storage

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Structure and composition of ferritin cores from pea seed (Pisum sativum)

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