Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/evolution-of-the-genes-encoding-seed-storage-proteins-in-sugarcane-and-W1UokcKyOz
References (46)
-
L. Ottoboni, A. Leite, M. Targon, A. Crozier, P. Arruda (1990)
Characterization of the storage protein in seed of Coix lacryma-jobi var. Adlay.Journal of Agricultural and Food Chemistry, 38
-
K. Bomblies, J. Doebley (2005)
Molecular evolution of FLORICAULA/LEAFY orthologs in the Andropogoneae (Poaceae).Molecular biology and evolution, 22 4
-
R. Garratt, G. Oliva, I. Caracelli, A. Leite, Paulo Arruda (1993)
Studies of the zein‐like α‐prolamins based on an analysis of amino acid sequences: Implications for their evolution and three‐dimensional structureProteins: Structure, 15
-
K. Wolfe, M. Gouy, Yau-Wen Yang, P. Sharp, Wenhan Li (1989)
Date of the monocot-dicot divergence estimated from chloroplast DNA sequence data.Proceedings of the National Academy of Sciences of the United States of America, 86 16
-
B. Larkins, K. Pedersen, M. Marks, Deborah Wilson (1984)
The zein proteins of maize endospermTrends in Biochemical Sciences, 9
-
(1999)
The prolamins of maize. In: Shewry PR, Casey R (eds) Seed proteins -
A. Esen (1987)
A proposed nomenclature for the alcohol-soluble proteins (zeins) of maize (Zea mays L.)Journal of Cereal Science, 5
-
Zuzana Swigoňová, Jinsheng Lai, Jianxin Ma, W. Ramakrishna, V. Llaca, J. Bennetzen, J. Messing (2004)
On the Tetraploid Origin of the Maize GenomeComparative and Functional Genomics, 5
-
L. Lukens, J. Doebley (2001)
Molecular evolution of the teosinte branched gene among maize and related grasses.Molecular biology and evolution, 18 4
-
L. Ottoboni, A. Leite, J. Yunes, M. Targon, G. Filho, P. Arruda (1993)
Sequence analysis of 22 kDa-like α-coixin genes and their comparison with homologous zein and kafirin genes reveals highly conserved protein structure and regulatory elementsPlant Molecular Biology, 21
-
U. Laemmli (1970)
Cleavage of structural proteins duringNature
-
P. Shewry (1995)
Plant Storage ProteinsBiological Reviews, 70
-
N. Takezaki, A. Rzhetsky, M. Nei (1995)
Phylogenetic test of the molecular clock and linearized trees.Molecular biology and evolution, 12 5
-
A. D'Hont, David Ison, K. Alix, C. Roux, J. Glaszmann (1998)
Determination of basic chromosome numbers in the genus Saccharum by physical mapping of ribosomal RNA genesGenome, 41
-
(1994)
Structural characterization and promoter activity analysis of the gammakafirin gene from sorghum -
S. Pelger, R. Bothmer (1992)
Hordein variation in the genus Hordeum as recognized by monoclonal antibodies.Genome, 35 2
-
P. Shewry (1999)
Avenins: The Prolamins of Oats -
(1993)
Studies of the a-prolamins based on an analysis of amino acid sequences: implications for their evolution and three-dimensional structure. Proteins -
N. Jannoo, L. Grivet, N. Chantret, O. Garsmeur, J. Glaszmann, P. Arruda, A. D'Hont (2007)
Orthologous comparison in a gene-rich region among grasses reveals stability in the sugarcane polyploid genome.The Plant journal : for cell and molecular biology, 50 4
-
J. Bietz (1982)
Cereal prolamin evolution and homology revealed by sequence analysisBiochemical Genetics, 20
-
D. Holding, B. Larkins (2006)
THE DEVELOPMENT AND IMPORTANCE OF ZEIN PROTEIN BODIES IN MAIZE ENDOSPERMMaydica, 51
-
(1993)
Studies of the a - prolamins based on an analysis of amino acid sequences : implications for their evolution and three - dimensional structure -
(1993)
Sequence analysis of 22 kd-like α-prolamin genes from coix, maize and sorghum reveals a highly conserved protein structure and regulatory elements -
L. Grivet, P. Arruda (2002)
Sugarcane genomics: depicting the complex genome of an important tropical crop.Current opinion in plant biology, 5 2
-
S. Al-Janabi, Michael McClelland, C. Petersen, B. Sobral (1994)
Phylogenetic analysis of organellar DNA sequences in the Andropogoneae: SaccharinaeTheoretical and Applied Genetics, 88
-
R. Song, V. Llaca, J. Messing (2002)
Mosaic organization of orthologous sequences in grass genomes.Genome research, 12 10
-
AL Vettore, FR Silva, EL Kemper (2003)
Analysis and functional annotation of an expressed sequence tag collection for tropical crop sugarcaneGenome Res, 13
-
C. Coleman, B. Larkins (1999)
The Prolamins of Maize -
Fernando Freitas, J. Yunes, M. Silva, P. Arruda, A. Leite (1994)
Structural characterization and promoter activity analysis of the γ-kafirin gene from sorghumMolecular and General Genetics MGG, 245
-
A. Leite, Germano Neto, A. Vettore, J. Yunes, P. Arruda (1999)
The Prolamins of Sorghum, Coix and Millets -
Y. Woo, David Hu, B. Larkins, R. Jung (2001)
Genomics Analysis of Genes Expressed in Maize Endosperm Identifies Novel Seed Proteins and Clarifies Patterns of Zein Gene ExpressionThe Plant Cell Online, 13
-
P. Shewry, Nigel Halford (2002)
Cereal seed storage proteins: structures, properties and role in grain utilization.Journal of experimental botany, 53 370
-
P. Shewry, A. Tatham (1990)
The prolamin storage proteins of cereal seeds: structure and evolution.The Biochemical journal, 267 1
-
Xiaoqiu Huang, A. Madan (1999)
CAP3: A DNA sequence assembly program.Genome research, 9 9
-
R. Derose, D. Ma, In-Sook Kwon, S. Hasnain, Rodney Klassy, T. Hall (1989)
Characterization of the kafirin gene family from sorghum reveals extensive homology with zein from maizePlant Molecular Biology, 12
-
C. Coleman, A. Clore, Jerry Ranch, R. Higgins, M. Lopes, B. Larkins (1997)
Expression of a mutant alpha-zein creates the floury2 phenotype in transgenic maize.Proceedings of the National Academy of Sciences of the United States of America, 94 13
-
J. Yunes, G. Neto, M. Silva, A. Leite, L. Ottoboni, P. Arruda (1994)
The transcriptional activator Opaque2 recognizes two different target sequences in the 22-kD-like alpha-prolamin genes.The Plant cell, 6 2
-
Zuzana Swigoňová, Jinsheng Lai, Jianxin Ma, W. Ramakrishna, V. Llaca, J. Bennetzen, J. Messing (2004)
Close split of sorghum and maize genome progenitors.Genome research, 14 10A
-
PR Shewry (1999)
Seed proteins -
P. Argos, Karl Pedersenfl, M., David Marksl, Brian Larkinsflll (2004)
A structural model for maize zein proteins.The Journal of biological chemistry, 257 17
-
R. Spangler, B. Zaitchik, E. Russo, E. Kellogg (1999)
Andropogoneae evolution and generic limits in Sorghum (Poaceae) using ndhF sequences.Systematic Botany, 24
-
A. Vettore, Felipe Silva, E. Kemper, G. Souza, A. Silva, M. Ferro, F. Henrique-Silva, É. Giglioti, M. Lemos, L. Coutinho, M. Nóbrega, H. Carrer, S. França, M. Júnior, M. Goldman, S. Gomes, L. Nunes, L. Camargo, W. Siqueira, M. Sluys, O. Thiemann, E. Kuramae, R. Santelli, C. Marino, M. Targon, J. Ferro, H. Silveira, D. Marini, E. Lemos, C. Monteiro-Vitorello, J. Tambor, D. Carraro, P. Roberto, V. Martins, G. Goldman, R. Oliveira, D. Truffi, C. Colombo, M. Rossi, Paula Araujo, S. Sculaccio, Aline Angêlla, M. Lima, Vicente Júnior, Fábio Siviero, V. Coscrato, M. Machado, L. Grivet, S. Mauro, F. Nóbrega, C. Menck, Marília Braga, G. Telles, Frank Cara, Guilherme Pedrosa, J. Meidanis, P. Arruda (2006)
Collection for Tropical Crop Sugarcane Analysis and Functional Annotation of an Expressed Sequence Tag -
U. Laemmli (1970)
Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4Nature, 227
-
(1999)
Avenins: The prolamins of oats. In: Shewry PR, Casey R (eds) Seed proteins -
E. Kellogg (2001)
Evolutionary history of the grasses.Plant physiology, 125 3
-
J. Yunes, M. Silva, A. Leite, L. Ottoboni, P. Arruda (2002)
The Transcriptional Activator Opaque2 Recognizes Two Different Target Sequences in the 22-kD-like a-Prolamin Genes
- Publisher
- Springer Journals
- Copyright
- Copyright © 2008 by Springer-Verlag
- Subject
- Life Sciences; Transgenics; Plant Ecology; Plant Breeding/Biotechnology; Plant Genetics & Genomics; Plant Sciences
- ISSN
- 1935-9756
- eISSN
- 1935-9764
- DOI
- 10.1007/s12042-008-9009-y
- Publisher site
- See Article on Publisher Site
Abstract
Prolamins, the seed storage proteins of maize, sorghum and coix were also found in sugarcane. Prolamins are grouped into structurally distinct classes termed the α-, β-, γ- and δ-prolamins. Orthologues for almost all of the α-, β-, γ- and δ-prolamins classes were identified in sugarcane. In maize, there are two molecular weight classes of α-prolamins, the 22 and 19 kD α-zeins. Sugarcane also possesses both the 22 kD and the 19 kD α-prolamins, which we denote as caneins, whereas sorghum and coix contain only the 22 kD α-prolamin (α-kafirin and α-coixin, respectively). Amino acid sequence alignments of the 22 and 19 kD α-prolamins from these plants revealed that both the 19 kD α-zein and the 19 kD α-canein lack around 20 amino acids at the sixth α-helix domain. We postulate that the 19 kD α-prolamins originated from a deletion of the sixth α-helix of a 22 kD counterpart in the saccharum lineage. Saccharum and sorghum diverged around five to nine million years ago (Mya), when only the 22 kD α-prolamins existed. The 19 kD α-canein must therefore have emerged after this time. Sorghum possesses a 19 kD α-prolamin similar to that of sugarcane and maize, but it contains the sixth α-helix domain lacking in the 19 kD α-zein and the 19 kD α-canein. This sorghum α-prolamin that we called 19 kD-like α-kafirin must be the ancestor of the 19 kD α-canein. The 19 kD-like α-kafirin could also be the ancestor of the 19 kD α-zein but it is also possible that the genes encoding the 19 kD α-zein and the 19 kD α-canein have evolved separately in these close groups.
Journal
Tropical Plant Biology – Springer Journals
Published: Apr 19, 2008