Co-purification of Pea and Bean Leaf Soluble Auxin-binding Proteins with Ribulose-1,5-Bisphosphate Carboxylase

Wardrop, Alison J.; Polya, Gideon M.

doi:10.1104/pp.66.1.105

Cited by 20 publications

(6 citation statements)

References 27 publications

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“…The pH optimum for the 120 K membrane fraction is 4.0 (Fig. 2), while the pH optima for vegetative tissues range from 5.0 in zucchini (12) and tobacco pith callus (32), 5.5 in com (1,23), to 8.0 in mung bean (13,33). The physiological relevance ofthis low pH optimum is unknown, but fruits in general appear to have a low pH optimum for auxin binding as evidenced by pH optima of 3.75 for cucumber fruit and 3.5 for bean and tomato fruit CM fraction (16,18).…”

Section: Discussionmentioning

confidence: 99%

Demonstration of Auxin Binding to Strawberry Fruit Membranes

Narayanan¹,

Mudge²,

Poovaiah³

1981

Plant Physiol.

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Section: Discussionmentioning

confidence: 99%

Demonstration of Auxin Binding to Strawberry Fruit Membranes

Narayanan¹,

Mudge²,

Poovaiah³

1981

Plant Physiol.

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“…Since ligand binding and receptor activation are usually the rate-limiting steps in signal transduction, the number of binding sites should be small. The highly abundant protein ribulose-bisP carboxylase www.plantphysiol.org/cgi/doi/10.1104/pp.109.136606 binds indole-3-acetic acid saturably (Wardrop and Polya, 1980), but clearly there are no other data, either physiological or genetic, supporting the model that this protein is an auxin receptor.…”

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A Binding Resolution

Jones

Sussman

2009

Plant Physiol.

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“…Royal Windsor) essentially as described previously (32). Because of the instability of bean ABP after chromatography on DEAESephacel this chromatographic step was replaced with a further gel filtration through a column (2.5 cm2 x 70 cm) of Ultrogel AcA-34 as described previously (32).…”

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confidence: 99%

“…Because of the instability of bean ABP after chromatography on DEAESephacel this chromatographic step was replaced with a further gel filtration through a column (2.5 cm2 x 70 cm) of Ultrogel AcA-34 as described previously (32). Pea ABP was purified from about 10-day-old leaves of peas (Pisum sativum var.…”

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Ligand Specificity of Bean Leaf Soluble Auxin-binding Protein

Wardrop¹,

Polya²

1980

Plant Physiol.

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The soluble bean leaf auxin-binding protein (ABP) has a high affinity for a range of auxins including indole-3-acetic acid (IAA), a-napthaleneacetic acid, phenylacetic acid, 2,4,5-trichlorophenoxyacetic acid, and structurally related auxins. A large number of nonauxin compounds that are nevertheless structurally related to auxins do not displace IAA from bean ABP. Bean ABP has a high affinity for auxin transport inhibitors and antiauxins. The specificity of pea ABP for representative auxins is similar to that found for bean ABP. The bean ABP auxin binding site is similar to the corn endoplasmic reticulum auxin-binding sites in specificity for auxins and sensitivity to thiol reagents and azide. Qualitative similarities between the ligand specificity of bean ABP and the specificity of auxin-induced bean leaf hyponasty provide further evidence, albeit circumstantial, that ABP (ribulose 1,5-bisphosphate carboxylase) can bind auxins in vivo. The high incidence of ABP in bean leaves and the high affity of this protein for auxins and auxin transport inhibitors suggest possible functions for ABP in auxin transport and/or auxin sequestration.We have presented evidence for the identity of the high incidence, soluble ABPs2 of bean and pea leaves with RuBPCase (32).Because the (NH4)2SO4 precipitation assay for IAA-ABP binding is highly reproducible and the basis for lack of IAA-binding by some ABP preparations in equilibrium dialysis is not known (32), the former procedure has been employed to examine the ligand specificity of ABP. This approach can provide the ligand specificity of a model high affmity ABP-and in addition will define the nature of a major plant auxin-binding site if the in vitro results directly reflect the behavior of an active conformer of ABP (RuBPCase) in vivo. We have shown previously (31) that the partially purified bean leaf ABP binds a variety of active synthetic auxins. The present paper describes the interaction of extensively purified bean leaf ABP with a wide range of naturally occurring and synthetic auxins, antiauxins, auxin transport inhibitors, and structurally related compounds. The binding of representative auxins to purified pea ABP is also reported.MATERIALS AND METHODS Purification of ABP. Bean leaf ABP was purified from about 10-day-old primary leaves of dwarf beans (Phaseolus vulgaris var.

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Co-purification of Pea and Bean Leaf Soluble Auxin-binding Proteins with Ribulose-1,5-Bisphosphate Carboxylase

Cited by 20 publications

References 27 publications

Demonstration of Auxin Binding to Strawberry Fruit Membranes

Demonstration of Auxin Binding to Strawberry Fruit Membranes

A Binding Resolution

Ligand Specificity of Bean Leaf Soluble Auxin-binding Protein

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