SBP1 protein, Antirrhinum majus

Known as: SBP1 binding protein, Antirrhinum majus, squamosa-promoter binding protein 1, Antirrhinum majus

National Institutes of Health

Papers overview

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2016

Meristem maintenance, auxin, jasmonic and abscisic acid pathways as a mechanism for phenotypic plasticity in Antirrhinum majus

J. Weiss, Raquel Alcantud-Rodriguez, Tugba Toksöz, M. Egea-Cortines
Scientific reports
2016

Corpus ID: 1123779

Plants grow under climatic changing conditions that cause modifications in vegetative and reproductive development. The degree of… Expand

2012

Ecology predicts parapatric distributions in two closely related Antirrhinum majus subspecies

A. Khimoun, J. Cornuault, M. Burrus, B. Pujol, C. Thébaud, C. Andalo
Evolutionary Ecology
2012

Corpus ID: 16781009

Using a species distribution model, we reconstructed the environmental niches of Antirrhinum majus pseudomajus and Antirrhinum… Expand

2008

Ratio of Myc and Myb Transcription Factors Regulates Anthocyanin Production in Orchid Flowers

H. Ma, M. Pooler, R. Griesbach
2008

Corpus ID: 86766937

Many studies have examined anthocyanin gene expression in colorless tissues by introducing anthocyanin regulatory genes of the… Expand

2008

Microtubule reorientation in shoots precedes bending during the gravitropic response of cut snapdragon spikes.

Zhaoqi Zhang, H. Friedman, S. Meir, I. Rosenberger, A. Halevy, S. Philosoph-Hadas
Journal of plant physiology
2008

Corpus ID: 9654839

The microtubule reorientation during the gravitropic bending of cut snapdragon (Antirrhinum majus L.) spikes was investigated… Expand

2004

Isolated populations or isolated taxa? A case study in narrowly-distributed snapdragons (Antirrhinum sect. Sempervirentia) using RAPD markers

J. Jiménez, P. Sánchez-Gómez, J. Güemes, J. Rosselló
Plant Systematics and Evolution
2004

Corpus ID: 23897950

RAPD fingerprinting was used to study species boundaries in narrowly distributed endemic species in Antirrhinum section… Expand

2004

Phenotypic effects of short-range and aberrant transposition in Antirrhinum majus

A. Hudson, R. Carpenter, E. Coen
Plant Molecular Biology
2004

Corpus ID: 29380162

We describe two novel ways in which changes in gene expression in Antirrhinum majus may arise as a consequence of the Tam3… Expand

2003

Analysis of within-population spatial genetic structure in Antirrhinum microphyllum (Scrophulariaceae).

E. Torres, J. Iriondo, A. Escudero, C. Perez
American journal of botany
2003

Corpus ID: 14308568

Random amplified polymorphic DNA (RAPD) markers were used to study the spatial genetic structure in two populations (Bolarque and… Expand

Highly Cited

1996

Highly Cited

1996

Effects of Epidermal Cell Shape and Pigmentation on Optical Properties of Antirrhinum Petals at Visible and Ultraviolet Wavelengths

H. Gorton, T. Vogelmann
Plant physiology
1996

Corpus ID: 23726845

We used the Mixta+ and mixta- lines of Antirrhinum majus as a model system to investigate the effects of epidermal cell shape and… Expand

Highly Cited

1989

Highly Cited

1989

A CACGTG motif of the Antirrhinum majus chalcone synthase promoter is recognized by an evolutionarily conserved nuclear protein.

D. Staiger, H. Kaulen, J. Schell
Proceedings of the National Academy of Sciences…
1989

Corpus ID: 44423614

In the chalcone synthase gene of Antirrhinum majus (snapdragon), 150 base pairs of the 5' flanking region contain cis-acting… Expand

1972

Chloroplast lamellar proteins of the plastid mutant en: viridis-1 of Antirrhinum majus having impaired photosystem II.

F. Herrmann
Experimental cell research
1972

Corpus ID: 39796242

SBP1 protein, Antirrhinum majus

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Papers overview