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The evolution of food plants: Genetic control of grass flower architecture
January 23, 2006Ramosa2 determines cell fate in branch meristems of maize
Scientists are interested in understanding genetic control of grass inflorescence architecture because seeds of cereal grasses (e.g. rice, wheat, maize) provide most of the world's food. Grass seeds are borne on axillary branches, whose branching patterns dictate most of the variation in form seen in the grasses. Maize produces two types of inflorescence; the tassel (male pollen-bearing flowers) and the ear (female flowers and site of seed or kernel development). The tassel forms from the shoot apical meristem after the production of a defined number of leaves, whereas ears form at the tips of compact axillary branches. Normal maize ears are unbranched, and tassels have long branches only at their base.
Many different genes control the architecture as well as the nutrient content in cereal grasses. The ramosa2 (ra2) mutant of maize has increased branching of inflorescences relative to wild type plants, with short branches replaced by long, indeterminate ones, suggesting that the ra2 gene plays an important role in controlling inflorescence architecture. A recent publication in The Plant Cell (Bortiri et al.) reports that ra2 encodes a putative transcription factor, or protein that controls the expression of other genes. Scientists involved in the study were Esteban Bortiri, George Chuck, and Sarah Hake of the USDA Plant Gene Expression Center and University of California at Berkeley and colleagues Erik Vollbrecht of Iowa State University, Torbert Rocheford of the University of Illinois, and Rob Martienssen of Cold Spring Harbor Laboratory in New York.
The group found that the ra2 gene is transiently expressed early in development of the maize inflorescence. Analysis of gene expression in a number of different mutant backgrounds placed ra2 function upstream of other genes that regulate branch formation. The early expression of ra2 suggests that it functions in regulating the patterning of stem cells in axillary meristems.
Said Dr. Hake, "we think that ra2 is critical for shaping the initial steps of inflorescence architecture in the grass family, because the ra2 expression pattern is conserved in other grasses including rice, barley, and sorghum".
Perspective: Branching Out: The ramosa Pathway and the Evolution of Grass Inflorescence Morphology
In an accompanying Current Perspective Essay, Paula McSteen of The Pennsylvania State University discusses the ramosa pathway in the context of the evolution of plant development.
"The grasses are a premier model system for evolution of development studies in higher plants: there is tremendous diversity in inflorescence morphology, the phylogeny is well understood and many species are genetically transformable so hypotheses can be tested. Maize in particular is an excellent model system for studying selection as it was domesticated from its wild ancestor teosinte a mere 10,000 years ago. Because transcription factors control many developmental processes, it is common to find that diversification of morphology between closely related organisms has involved changes in how transcription factors are regulated or how transcription factors interact with their target genes. An understanding of the ramosa pathway in the grass family will be important in understanding the evolution of the grasses and furthermore will provide an understanding of the mechanisms of evolution of development."
Dr. McSteen commented "because ra2 has increased branching it might have the potential to lead to increased seed number and yield in some cereal grasses. This might not be true for maize because of the structure of the ear, but one can imagine that a ra2 mutant of barley, rice or sorghum might have more branches, and thus produce more seed".
American Society of Plant Biologists
The group found that the ra2 gene is transiently expressed early in development of the maize inflorescence. Analysis of gene expression in a number of different mutant backgrounds placed ra2 function upstream of other genes that regulate branch formation. The early expression of ra2 suggests that it functions in regulating the patterning of stem cells in axillary meristems.
Said Dr. Hake, "we think that ra2 is critical for shaping the initial steps of inflorescence architecture in the grass family, because the ra2 expression pattern is conserved in other grasses including rice, barley, and sorghum".
Perspective: Branching Out: The ramosa Pathway and the Evolution of Grass Inflorescence Morphology
In an accompanying Current Perspective Essay, Paula McSteen of The Pennsylvania State University discusses the ramosa pathway in the context of the evolution of plant development.
"The grasses are a premier model system for evolution of development studies in higher plants: there is tremendous diversity in inflorescence morphology, the phylogeny is well understood and many species are genetically transformable so hypotheses can be tested. Maize in particular is an excellent model system for studying selection as it was domesticated from its wild ancestor teosinte a mere 10,000 years ago. Because transcription factors control many developmental processes, it is common to find that diversification of morphology between closely related organisms has involved changes in how transcription factors are regulated or how transcription factors interact with their target genes. An understanding of the ramosa pathway in the grass family will be important in understanding the evolution of the grasses and furthermore will provide an understanding of the mechanisms of evolution of development."
Dr. McSteen commented "because ra2 has increased branching it might have the potential to lead to increased seed number and yield in some cereal grasses. This might not be true for maize because of the structure of the ear, but one can imagine that a ra2 mutant of barley, rice or sorghum might have more branches, and thus produce more seed".
American Society of Plant Biologists
Researchers Find an Essential Gene for Forming Ears of Corn
Cold Spring Harbor Laboratory (CSHL) professor David Jackson, Ph.D., and a team of plant geneticists have identified a gene essential in controlling development of the maize plant, commonly known in the United States as corn.
How to build a plant
Walking through a tropical or temperate forest immediately impresses us with the myriad forms and soaring structures of the plant world, but our knowledge of how plants are actually built, cell by cell, is still incomplete.
Nature surrenders flowery secrets to international team
The poet Dylan Thomas wrote, "The force that drives the green fuse drives the flower." Now, a team of international scientists has unlocked some of the secrets of that force: it has described the rules that govern how plants arrange flowers into branching structures, known in technical terms as 'inflorescences.'
Media Invitation - World record! -The Titan Arum expected to flower in Bonn on Friday or Saturday
The bloom with the world's largest inflorescence is about to flower at the Botanical Gardens of the University of Bonn. The Titan Arum (Amorphophallus titanum) has already reached a height of 268 centimeters - 1 centimeter more than the specimen grown in 1932 in the Dutch town of Wageningen that held the world record up to now. Apart from its mere size the bloom is also characterised by a powerful and foul stench given off during flowering. The bloom is expected to unfurl during Friday afternoon. On that day the Botanical Garden will be open until 11:00 p.m. and on the following day from 7:00 am to 8:00 p.m. For the latest news on Bonn's Titan Arum visit an a webcam: http://www.botanik.uni
World record? - The Titan Arum is flowering next week
The world's largest bloom can very soon be admired at the Botanical Gardens of the University of Bonn. In addition to the enormous size of this inflorescence, which can reach a height of over two-and-a-half metres, the Titan Arum (Amorphophallus titanum) is also characterised by a powerful and foul stench given off during flowering. This rare plant is expected to open its gigantic inflorescence in the second half of the coming week. This year might even see an all-time world record, since the tuber, or corm from which inflorescence grows, now weighs 80 kilograms, twice as much as during the last flowering that occurred three years ago. Last time Bonn's Titan Arum had the second largest bloom
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Inflorescence by Sarah Hannah (Author) In this fierce, often witty memoir-in-verse, Sarah Hannah confronts her role as caretaker of her dying, mentally ill mother, artist Renee Rothbein. Entwining the lore of wildflowers with richly evocative language, Hannah's stunningly contemporary voice summons truth and love from loss with unflinching honesty and candor. Poems from this collection have been nominated for four Pushcart Prizes. Sarah Hannah's first book, Longing Distance (Tupelo Press, 2004), was a semifinalist for the Yale Younger Poets Prize. Her poems have appeared in many journals, including Parnassus, The Southern Review, Harvard Review, and AGNI. She grew up in Newton, Massachusetts, and teaches at Emerson College. |
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Antique Print C1800-1870 Inflorescence Nature Plants by old-print Old Antique Print c1800- 1870 date if known in title, purchased at auction from an old antique print dealer.The overall scan size is 11.5 x 9 inches (290 x 230).Size of each plate varies so check against scale shown which is 1 inch apart (2.5 cm) to find the size of the plate. These prints are mostly black and white some show colour due to camera check image carefully.All are genuine antiques and not modern copies. |
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