0:47
Generation of Composite Plants in Medicago truncatula used for Nodulation Assays
Watch video protocols on JoVE - www.jove.com. Journal of Visualized Experiments (JoVE) is ...
published: 20 May 2011
Author: JoVEVideoJournal
Generation of Composite Plants in Medicago truncatula used for Nodulation Assays
Watch video protocols on JoVE - www.jove.com. Journal of Visualized Experiments (JoVE) is a scientific journal publishing video articles on biological experiments filmed at leading research institutions. JoVE is the first video journal indexed in PubMed. To see more of this protocol go to www.jove.com Generation of Composite Plants in Medicago truncatula used for Nodulation Assays This video protocol was filmed at the Donald Danforth Plant Science Center. Similar to Agrobacterium tumerfaciens, Agrobacterium rhizogenes can transfer foreign DNAs into plant cells based on the autonomous root-inducing (Ri) plasmid. A. rhizogenes can cause hairy root formation on plant tissues and form composite plants after transformation. On these composite plants, some of the regenerated roots are transgenic, carrying the wild type T-DNA and the engineered binary vector; while the shoots are still non-transgenic, serving to provide energy and growth support. These hairy root composite plants will not produce transgenic seeds, but there are a number of important features that make these composite plants very useful in plant research. First, with a broad host range,A. rhizogenes can transform many plant species, especially dicots, allowing genetic engineering in a variety of species. Second, A. rhizogenes infect tissues and explants directly; no tissue cultures prior to transformation is necessary to obtain composite plants, making them ideal for transforming recalcitrant plant species <b>...</b>
0:05
Brief buckling plant root growth
A medicago truncatula root navigates through a block of agarose gel, breifly buckling as i...
published: 19 Feb 2010
Author: itaicohengroup
Brief buckling plant root growth
A medicago truncatula root navigates through a block of agarose gel, breifly buckling as it passes into a stuffer layer of gell.
0:07
Spiraling root growth
Medicago Truncatula root growth embedded in an agarose gel. The spiral buckling occurs whe...
published: 19 Feb 2010
Author: itaicohengroup
Spiraling root growth
Medicago Truncatula root growth embedded in an agarose gel. The spiral buckling occurs when the root tip reaches a stiffer gel layer. Data taken by Jesse Silverberg Jan 21 2010.
0:14
Plant Proteomics
xxsurl.com Plant Proteomics 1 Introduction to Proteomics: a Brief Historical Perspective o...
published: 25 Jul 2012
Author: melissarader314
Plant Proteomics
xxsurl.com Plant Proteomics 1 Introduction to Proteomics: a Brief Historical Perspective on Contemporary Approaches.- 2 High-Resolution Two-Dimensional Gel Electrophoresis: A Cornerstone of Plant Proteomics.- 3 An Introduction to Proteomics Data Analysis.- 4 Phosphoproteomics in Plants.- 5 High-Throughput Identification of Plant Protein Kinase Substrates.- 6 Discovery via Proteomics of a Novel Cell Signalling Pathway in Plants Involving Extracellular ATP.- 7 Cereal Proteomics.- 8 Current Status of Arabidopsis thaliana Proteomics.- 9 Proteomics of Medicago truncatula.- 10 Proteomics of Seed Development in Oilseed Crops.- 11 Proteome Analysis of Nicotiana tabacum Suspension Cultures.- 12 Cell Wall Proteome.- 13 Plasma Membrane Proteomics.- 14 The Proteomes of Chloroplasts and other Plastids.- 15 The Plant Mitochondrial Proteome.- 16 Proteomic Analysis of the Plant Nucleolus.- 17 Pollen and Pollen Tube Proteomics.- 18 Plant Proteomics Upon Fungal Attack.- 19 Metabolic Intricacies of the Symbiotic Association between Soybean and Bradyrhizobium japonicum: A Proteomic Outlook.- 20 Proteomes in Arbuscular Mycorrhizal Symbiosis.- 21 Plant Proteome Responses to Abiotic Stress. EAN/ISBN : 9783540726173 Publisher(s): Springer, Berlin Format: ePub/PDF Author(s): Samaj, Jozef - Thelen, Jay J. 1 Introduction to Proteomics: a Brief Historical Perspective on Contemporary Approaches.- 2 High-Resolution Two-Dimensional Gel Electrophoresis: A Cornerstone of Plant Proteomics.- 3 An <b>...</b>
62:58
Sharon Long (Stanford) Part 3: Plant genes and cell response in nitrogen-fixing symbiosis
ibioseminar.hhmi.org Legume plants form specialized root nodules to host "rhizobia&qu...;
published: 23 Apr 2011
Author: ibioseminars
Sharon Long (Stanford) Part 3: Plant genes and cell response in nitrogen-fixing symbiosis
ibioseminar.hhmi.org Legume plants form specialized root nodules to host "rhizobia", nitrogen-fixing bacterial symbionts. Rhizobia hosting legumes are able to grow without exogenous nitrogen fertilizer allowing them to be high in protein and to provide nutrition to surrounding plants. In part 1 of her talk, Long gives an overview rhizobium-legume symbiosis including infection and nodule formation and the chemical signals exchanged between the plant and the bacteria. In Part 2. Long goes into more detail on how chemicals released from legumes increase transcription of specific bacterial genes required for plant infection, while in Part 3 she describes how bacterial factors induce production of specific proteins by the plant. By using a custom gene chip, Long can follow the regulation of both Sinorhizobium genes and alfalfa genes at the same time, during nodule formation. This has allowed her to show that this is an extremely complex process with the expression of hundreds of plant and bacterial genes changing during this process.
