A species of AZORHIZOBIUM which forms nodules on the roots of the tropical legume Sesbania rostrata. (From Bergey's Manual of Determinative Bacteriology, 9th ed)
A genus of gram-negative, rod-shaped, obligate aerobes which are motile by peritrichous flagella on solid medium and one lateral flagellum in liquid medium. Under microaerobic conditions Azorhizobium fixes nitrogen. (From Bergey's Manual of Determinative Bacteriology, 9th ed)
A plant genus of the family FABACEAE. Members contain piperidine alkaloids (PIPERIDINES).
The large family of plants characterized by pods. Some are edible and some cause LATHYRISM or FAVISM and other forms of poisoning. Other species yield useful materials like gums from ACACIA and various LECTINS like PHYTOHEMAGGLUTININS from PHASEOLUS. Many of them harbor NITROGEN FIXATION bacteria on their roots. Many but not all species of "beans" belong to this family.
A hemoglobin-like oxygen-binding hemeprotein present in the nitrogen-fixing root nodules of leguminous plants. The red pigment has a molecular weight approximately 1/4 that of hemoglobin and has been suggested to act as an oxido-reduction catalyst in symbiotic nitrogen fixation.
The relationship between two different species of organisms that are interdependent; each gains benefits from the other or a relationship between different species where both of the organisms in question benefit from the presence of the other.
A family of gram-negative bacteria which are saprophytes, symbionts, or plant pathogens.
Proteins which are synthesized as a single polymer and then cleaved into several distinct proteins.
Knobbed structures formed from and attached to plant roots, especially of LEGUMES, which result from symbiotic infection by nitrogen fixing bacteria such as RHIZOBIUM or FRANKIA. Root nodules are structures related to MYCORRHIZAE formed by symbiotic associations with fungi.
Plants whose roots, leaves, seeds, bark, or other constituent parts possess therapeutic, tonic, purgative, curative or other pharmacologic attributes, when administered to man or animals.
The process in certain BACTERIA; FUNGI; and CYANOBACTERIA converting free atmospheric NITROGEN to biologically usable forms of nitrogen, such as AMMONIA; NITRATES; and amino compounds.
Parts of plants that usually grow vertically upwards towards the light and support the leaves, buds, and reproductive structures. (From Concise Dictionary of Biology, 1990)
Substances which pollute the soil. Use for soil pollutants in general or for which there is no specific heading.
The usually underground portions of a plant that serve as support, store food, and through which water and mineral nutrients enter the plant. (From American Heritage Dictionary, 1982; Concise Dictionary of Biology, 1990)
A genus of gram-negative, aerobic, rod-shaped bacteria that activate PLANT ROOT NODULATION in leguminous plants. Members of this genus are nitrogen-fixing and common soil inhabitants.
Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as GENBANK, European Molecular Biology Laboratory (EMBL), National Biomedical Research Foundation (NBRF), or other sequence repositories.
The order of amino acids as they occur in a polypeptide chain. This is referred to as the primary structure of proteins. It is of fundamental importance in determining PROTEIN CONFORMATION.

Gibberellins are involved in nodulation of Sesbania rostrata. (1/26)

Upon submergence, Azorhizobium caulinodans infects the semiaquatic legume Sesbania rostrata via the intercellular crack entry process, resulting in lateral root-based nodules. A gene encoding a gibberellin (GA) 20-oxidase, SrGA20ox1, involved in GA biosynthesis, was transiently up-regulated during lateral root base nodulation. Two SrGA20ox1 expression patterns were identified, one related to intercellular infection and a second observed in nodule meristem descendants. The infection-related expression pattern depended on bacterially produced nodulation (Nod) factors. Pharmacological studies demonstrated that GAs were involved in infection pocket and infection thread formation, two Nod factor-dependent events that initiate lateral root base nodulation, and that they were also needed for nodule primordium development. Moreover, GAs inhibited the root hair curling process. These results show that GAs are Nod factor downstream signals for nodulation in hydroponic growth.  (+info)

A symbiotic plant peroxidase involved in bacterial invasion of the tropical legume Sesbania rostrata. (2/26)

Aquatic nodulation on the tropical legume Sesbania rostrata occurs at lateral root bases via intercellular crack-entry invasion. A gene was identified (Srprx1) that is transiently up-regulated during the nodulation process and codes for a functional class III plant peroxidase. The expression strictly depended on bacterial nodulation factors (NFs) and could be modulated by hydrogen peroxide, a downstream signal for crack-entry invasion. Expression was not induced after wounding or pathogen attack, indicating that the peroxidase is a symbiosis-specific isoform. In situ hybridization showed Srprx1 transcripts around bacterial infection pockets and infection threads until they reached the central tissue of the nodule. A root nodule extensin (SrRNE1) colocalized with Srprx1 both in time and space and had the same NF requirement, suggesting a function in a similar process. Finally, in mixed inoculation nodules that were invaded by NF-deficient bacteria and differed in infection thread progression, infection-associated peroxidase transcripts were not observed. Lack of Srprx1 gene expression could be one of the causes for the aberrant structure of the infection threads.  (+info)

Comparative transcriptome analysis reveals common and specific tags for root hair and crack-entry invasion in Sesbania rostrata. (3/26)

The tropical legume Sesbania rostrata provides its microsymbiont Azorhizobium caulinodans with versatile invasion strategies to allow nodule formation in temporarily flooded habitats. In aerated soils, the bacteria enter via the root hair curling mechanism. Submergence prevents this epidermal invasion by accumulation of inhibiting concentrations of ethylene and, under these conditions, the bacterial colonization occurs via intercellular cortical infection at lateral root bases. The transcriptome of both invasion ways was compared by cDNA-amplified fragment length polymorphism analysis. Clusters of gene tags were identified that were specific for either epidermal or cortical invasion or were shared by both. The data provide insight into mechanisms that control infection and illustrate that entry via the epidermis adds a layer of complexity to rhizobial invasion.  (+info)

Structure of recombinant capsids formed by the beta-annulus deletion mutant -- rCP (Delta48-59) of Sesbania mosaic virus. (4/26)

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Functional nodFE genes are present in Sinorhizobium sp. strain MUS10, a symbiont of the tropical legume Sesbania rostrata. (5/26)

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Stacking interactions of W271 and H275 of SeMV serine protease with W43 of natively unfolded VPg confer catalytic activity to protease. (6/26)

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Assessment of the efficacy of chelate-assisted phytoextraction of lead by coffeeweed (Sesbania exaltata Raf.). (7/26)

Lead (Pb), depending upon the reactant surface, pH, redox potential and other factors can bind tightly to the soil with a retention time of many centuries. Soil-metal interactions by sorption, precipitation and complexation processes, and differences between plant species in metal uptake efficiency, transport, and susceptibility make a general prediction of soil metal bioavailability and risks of plant metal toxicity difficult. Moreover, the tight binding characteristic of Pb to soils and plant materials make a significant portion of Pb unavailable for uptake by plants. This experiment was conducted to determine whether the addition of ethylenediaminetetraacetic acid (EDTA), ethylene glycol tetraacetic acid (EGTA), or acetic acid (HAc) can enhance the phytoextraction of Pb by making the Pb soluble and more bioavailable for uptake by coffeeweed (Sesbania exaltata Raf.). Also we wanted to assess the efficacy of chelates in facilitating translocation of the metal into the above-ground biomass of this plant. To test the effect of chelates on Pb solubility, 2 g of Pb-spiked soil (1000 mg Pb/kg dry soil) were added to each 15 mL centrifuge tube. Chelates (EDTA, EGTA, HAc) in a 1:1 ratio with the metal, or distilled deionized water were then added. Samples were shaken on a platform shaker then centrifuged at the end of several time periods. Supernatants were filtered with a 0.45 mum filter and quantified by inductively coupled plasma-optical emission spectrometry (ICP-OES) to determine soluble Pb concentrations. Results revealed that EDTA was the most effective in bringing Pb into solution, and that maximum solubility was reached 6 days after chelate amendment. Additionally, a greenhouse experiment was conducted by planting Sesbania seeds in plastic tubes containing top soil and peat (2:1, v:v) spiked with various levels (0, 1000, 2000 mg Pb/kg dry soil) of lead nitrate. At six weeks after emergence, aqueous solutions of EDTA and/or HAc (in a 1:1 ratio with the metal) or distilled deionized water were applied to the root zones. Plants were harvested at 6 days after chelate addition to coincide with the duration of maximum metal solubility previously determined in this study. Results of the greenhouse experiment showed that coffeeweed was relatively tolerant to moderate levels of Pb and chelates as shown by very slight reductions in root and no discernable effects on shoot biomass. Root Pb concentrations increased with increasing levels of soil-applied Pb. Further increases in root Pb concentrations were attributed to chelate amendments. In the absence of chelates, translocation of Pb from roots to shoots was minimal. However, translocation dramatically increased in treatments with EDTA alone or in combination with HAc. Overall, the results of this study indicated that depending on the nature and type of Pb-contaminated soil being remediated, the bioavailability and uptake of Pb by coffeeweed can be enhanced by amending the soil with chelates especially after the plants have reached maximum biomass.  (+info)

Bioavailability and uptake of lead by coffeeweed (Sesbania exaltata Raf.). (8/26)

Lead (Pb) is recognized as one of the most pervasive environmental health concerns in the industrialized world. While there has been a substantial reduction in the use of Pb in gasoline, water pipes, and Pb-based residential paint, residual Pb from their use is still in the environment and constitutes an important source of Pb in the atmosphere, water, and soil. Soil acts as a sink for these anthropogenic sources of Pb, accumulating the deposits over time in the upper 2 - 5 cm of undisturbed soil. Generally, Pb binds strongly to soil particles and renders a significant soil-metal fraction insoluble and largely unavailable for phytoremediation or plant uptake. A major objective of current phytoremediation research, therefore, is to induce desorption of Pb from the soil matrix into solution and increase the propensity for plant uptake. We hypothesized that the bioavailability of Pb for plant uptake can be increased through chelate amendments. To test this hypothesis, we mixed delta top soil and peat (2:1) and added lead nitrate [Pb (NO3)2[ to generate a Pb-contaminated soil concentration of 2000 mg Pb/kg dry soil. After incubating the Pb-spiked soil in a greenhouse for 6 weeks, Sesbania plants were grown in the soil and harvested at 6, 8, and 10 weeks after emergence. Six days before each harvest, a chelating agent, ethylenediaminetetraacetic acid (EDTA) was applied to the root zone as an aqueous solution in a 1:1 ratio with the Pb concentration in the soil. Sequential extraction procedures were used to assess selective chemical fractions of Pb in the soil. Our results showed that a higher exchangeable fraction of Pb was available for plant uptake after chelate amendment compared to pre-chelate amendment. We also saw higher root and shoot Pb uptake after chelate amendment compared to pre-chelate amendment, especially at 10 weeks after emergence. Together, these results suggest that chelate amendments can promote the bioavailability of Pb in the soil and increased the propensity for uptake by plants into roots and shoots. Further, these results indicate that Sesbania exaltata can be grown under elevated Pb conditions and may be suitable as a potential crop rotation species for phytoextraction.  (+info)

'Azorhizobium caulinodans' is a species of nitrogen-fixing bacteria that can form root nodules on the stem and roots of certain plants, most notably the tropical legume *Sesbania rostrata*. This bacterium has the ability to convert atmospheric nitrogen into ammonia, which the plant can then use for growth. The symbiotic relationship between 'Azorhizobium caulinodans' and its host plants helps to improve soil fertility and promote sustainable agriculture.

The medical relevance of 'Azorhizobium caulinodans' is limited, but it is an important organism in the field of environmental microbiology and agricultural science. Understanding the mechanisms of nitrogen fixation and symbiotic relationships between bacteria and plants can provide insights into new approaches for improving crop yields, reducing the need for chemical fertilizers, and promoting sustainable agriculture practices.

Azorhizobium is a genus of bacteria that can form nitrogen-fixing nodules on the roots of certain plants, most notably the legume Sesbania rostrata. These bacteria are able to convert atmospheric nitrogen into ammonia, which the plant can then use as a nutrient. This process, known as biological nitrogen fixation, is an important part of the nitrogen cycle and helps to fertilize the soil naturally.

Azorhizobium bacteria are gram-negative rods that are motile by means of a single polar flagellum. They are able to grow in a wide range of temperatures and can be found in various environments, including soil and water. In addition to their ability to fix nitrogen, Azorhizobium bacteria are also capable of denitrification, which is the process of converting nitrate back into nitrogen gas. This makes them important players in the global nitrogen cycle.

In order to form nitrogen-fixing nodules on the roots of plants, Azorhizobium bacteria must first infect the plant through root hairs or wounds. Once inside the plant, they induce the formation of a nodule, which provides them with a protected environment in which to fix nitrogen. The plant, in turn, benefits from the nitrogen that is fixed by the bacteria. This mutualistic relationship is an example of symbiosis, in which two different organisms live in close association with each other and benefit from the relationship.

Azorhizobium bacteria are closely related to other nitrogen-fixing bacteria, such as Rhizobia and Bradyrhizobia. However, they are distinguished by their ability to form nodules on a wider range of plant species and by their unique genetic characteristics. Further research into the biology and ecology of Azorhizobium bacteria may help to improve our understanding of the nitrogen cycle and the role that these important microorganisms play in it.

I'm sorry for any confusion, but "Sesbania" is not a medical term. It is a genus of flowering plants in the pea and bean family Fabaceae, also known as "sesban" or "hummingbird tree." These plants have various uses, including as food sources for people and animals, as well as traditional medicinal applications in some cultures. However, there isn't a widely accepted medical definition associated with "Sesbania." If you have any questions related to health or medicine, I'd be happy to try to help with those!

Fabaceae is the scientific name for a family of flowering plants commonly known as the legume, pea, or bean family. This family includes a wide variety of plants that are important economically, agriculturally, and ecologically. Many members of Fabaceae have compound leaves and produce fruits that are legumes, which are long, thin pods that contain seeds. Some well-known examples of plants in this family include beans, peas, lentils, peanuts, clover, and alfalfa.

In addition to their importance as food crops, many Fabaceae species have the ability to fix nitrogen from the atmosphere into the soil through a symbiotic relationship with bacteria that live in nodules on their roots. This makes them valuable for improving soil fertility and is one reason why they are often used in crop rotation and as cover crops.

It's worth noting that Fabaceae is sometimes still referred to by its older scientific name, Leguminosae.

Leghemoglobin is a type of protein known as a hemeprotein, found in the root nodules of leguminous plants (plants belonging to the family Fabaceae or Leguminosae). These root nodules are formed through a symbiotic relationship with nitrogen-fixing bacteria called Rhizobia.

The primary function of leghemoglobin is to facilitate the process of nitrogen fixation by maintaining an optimal oxygen concentration within the root nodule cells, where the Rhizobia reside. By binding and releasing oxygen reversibly, leghemoglobin protects the nitrogen-fixing enzyme, nitrogenase, from being inactivated by excess oxygen. This ensures that the Rhizobia can effectively convert atmospheric nitrogen gas (N2) into ammonia (NH3), which is then utilized by the plant for its growth and development.

In summary, leghemoglobin is a crucial protein in the process of biological nitrogen fixation, allowing leguminous plants to grow without the need for added nitrogen fertilizers.

In the context of medicine and biology, symbiosis is a type of close and long-term biological interaction between two different biological organisms. Generally, one organism, called the symbiont, lives inside or on another organism, called the host. This interaction can be mutually beneficial (mutualistic), harmful to the host organism (parasitic), or have no effect on either organism (commensal).

Examples of mutualistic symbiotic relationships in humans include the bacteria that live in our gut and help us digest food, as well as the algae that live inside corals and provide them with nutrients. Parasitic symbioses, on the other hand, involve organisms like viruses or parasitic worms that live inside a host and cause harm to it.

It's worth noting that while the term "symbiosis" is often used in popular culture to refer to any close relationship between two organisms, in scientific contexts it has a more specific meaning related to long-term biological interactions.

Rhizobiaceae is a family of bacteria that have the ability to fix nitrogen. These bacteria are gram-negative, motile, and rod-shaped. They are commonly found in the root nodules of leguminous plants, where they form a symbiotic relationship with the plant. The bacteria provide the plant with fixed nitrogen, while the plant provides the bacteria with carbon and a protected environment.

The most well-known genus of Rhizobiaceae is Rhizobium, which includes several species that are important for agriculture because of their ability to fix nitrogen in the root nodules of legumes. Other genera in this family include Bradyrhizobium, Mesorhizobium, and Sinorhizobium.

It's worth noting that while Rhizobiaceae bacteria are generally beneficial, they can sometimes cause disease in plants under certain conditions. For example, some strains of Rhizobium can cause leaf spots on certain crops.

A polyprotein is a long, continuous chain of amino acids that are produced through the translation of a single mRNA (messenger RNA) molecule. This occurs in some viruses, including retroviruses like HIV, where the viral genome contains instructions for the production of one or more polyproteins.

After the polyprotein is synthesized, it is cleaved into smaller, functional proteins by virus-encoded proteases. These individual proteins then assemble to form new virus particles. The concept of polyproteins is important in understanding viral replication and may provide targets for antiviral therapy.

Root nodules in plants refer to the specialized structures formed through the symbiotic relationship between certain leguminous plants and nitrogen-fixing bacteria, most commonly belonging to the genus Rhizobia. These nodules typically develop on the roots of the host plant, providing an ideal environment for the bacteria to convert atmospheric nitrogen into ammonia, a form that can be directly utilized by the plant for growth and development.

The formation of root nodules begins with the infection of the plant's root hair cells by Rhizobia bacteria. This interaction triggers a series of molecular signals leading to the differentiation of root cortical cells into nodule primordia, which eventually develop into mature nodules. The nitrogen-fixing bacteria reside within these nodules in membrane-bound compartments called symbiosomes, where they reduce atmospheric nitrogen into ammonia through an enzyme called nitrogenase.

The plant, in turn, provides the bacteria with carbon sources and other essential nutrients required for their growth and survival within the nodules. The fixed nitrogen is then transported from the root nodules to other parts of the plant, enhancing its overall nitrogen nutrition and promoting sustainable growth without the need for external nitrogen fertilizers.

In summary, root nodules in plants are essential structures formed through symbiotic associations with nitrogen-fixing bacteria, allowing leguminous plants to convert atmospheric nitrogen into a usable form while also benefiting the environment by reducing the reliance on chemical nitrogen fertilizers.

Medicinal plants are defined as those plants that contain naturally occurring chemical compounds which can be used for therapeutic purposes, either directly or indirectly. These plants have been used for centuries in various traditional systems of medicine, such as Ayurveda, Chinese medicine, and Native American medicine, to prevent or treat various health conditions.

Medicinal plants contain a wide variety of bioactive compounds, including alkaloids, flavonoids, tannins, terpenes, and saponins, among others. These compounds have been found to possess various pharmacological properties, such as anti-inflammatory, analgesic, antimicrobial, antioxidant, and anticancer activities.

Medicinal plants can be used in various forms, including whole plant material, extracts, essential oils, and isolated compounds. They can be administered through different routes, such as oral, topical, or respiratory, depending on the desired therapeutic effect.

It is important to note that while medicinal plants have been used safely and effectively for centuries, they should be used with caution and under the guidance of a healthcare professional. Some medicinal plants can interact with prescription medications or have adverse effects if used inappropriately.

Nitrogen fixation is a process by which nitrogen gas (N2) in the air is converted into ammonia (NH3) or other chemically reactive forms, making it available to plants and other organisms for use as a nutrient. This process is essential for the nitrogen cycle and for the growth of many types of plants, as most plants cannot utilize nitrogen gas directly from the air.

In the medical field, nitrogen fixation is not a commonly used term. However, in the context of microbiology and infectious diseases, some bacteria are capable of fixing nitrogen and this ability can contribute to their pathogenicity. For example, certain species of bacteria that colonize the human body, such as those found in the gut or on the skin, may be able to fix nitrogen and use it for their own growth and survival. In some cases, these bacteria may also release fixed nitrogen into the environment, which can have implications for the ecology and health of the host and surrounding ecosystems.

A plant stem is not typically defined in a medical context, but rather in the field of botany. However, I can certainly provide a general biological definition for you.

In plants, stems are organs that serve primarily as support structures, holding leaves, flowers, and fruits aloft where they can receive sunlight and exchange gases. They also act as conduits, transporting water, nutrients, and sugars made during photosynthesis between the roots and shoots of a plant.

The stem is usually composed of three main tissue systems: dermal, vascular, and ground. The dermal tissue system forms the outermost layer(s) of the stem, providing protection and sometimes participating in gas exchange. The vascular tissue system contains the xylem (which transports water and nutrients upward) and phloem (which transports sugars and other organic compounds downward). The ground tissue system, located between the dermal and vascular tissues, is responsible for food storage and support.

While not a direct medical definition, understanding the structure and function of plant stems can be relevant in fields such as nutrition, agriculture, and environmental science, which have implications for human health.

I'm sorry for any confusion, but "soil pollutants" is not a term typically used in medical definitions. Soil pollution refers to the presence or accumulation of hazardous substances, chemicals, or other pollutants in soil that can have negative effects on plant life, human health, and the environment.

However, if you're asking about potential health effects of exposure to soil pollutants, it could include a variety of symptoms or diseases, depending on the specific pollutant. For example, exposure to lead-contaminated soil can lead to developmental delays in children, while exposure to certain pesticides or industrial chemicals can cause neurological problems, respiratory issues, and even cancer.

If you have more specific information about a particular substance or context, I may be able to provide a more precise answer.

A plant root is not a medical term per se, but it is a term from botany, which is the study of plants. However, I can certainly provide a definition for you.

Plant roots are the underground organs of a plant that typically grow downward into the soil. They serve several important functions, including:

1. Anchorage: Roots help to stabilize the plant and keep it upright in the ground.
2. Absorption: Roots absorb water and nutrients from the soil, which are essential for the plant's growth and development.
3. Conduction: Roots conduct water and nutrients up to the above-ground parts of the plant, such as the stem and leaves.
4. Vegetative reproduction: Some plants can reproduce vegetatively through their roots, producing new plants from root fragments or specialized structures called rhizomes or tubers.

Roots are composed of several different tissues, including the epidermis, cortex, endodermis, and vascular tissue. The epidermis is the outermost layer of the root, which secretes a waxy substance called suberin that helps to prevent water loss. The cortex is the middle layer of the root, which contains cells that store carbohydrates and other nutrients. The endodermis is a thin layer of cells that surrounds the vascular tissue and regulates the movement of water and solutes into and out of the root. The vascular tissue consists of xylem and phloem, which transport water and nutrients throughout the plant.

Rhizobium is not a medical term, but rather a term used in microbiology and agriculture. It refers to a genus of gram-negative bacteria that can fix nitrogen from the atmosphere into ammonia, which can then be used by plants as a nutrient. These bacteria live in the root nodules of leguminous plants (such as beans, peas, and clover) and form a symbiotic relationship with them.

The host plant provides Rhizobium with carbon sources and a protected environment within the root nodule, while the bacteria provide the plant with fixed nitrogen. This mutualistic interaction plays a crucial role in maintaining soil fertility and promoting plant growth.

While Rhizobium itself is not directly related to human health or medicine, understanding its symbiotic relationship with plants can have implications for agricultural practices, sustainable farming, and global food security.

Molecular sequence data refers to the specific arrangement of molecules, most commonly nucleotides in DNA or RNA, or amino acids in proteins, that make up a biological macromolecule. This data is generated through laboratory techniques such as sequencing, and provides information about the exact order of the constituent molecules. This data is crucial in various fields of biology, including genetics, evolution, and molecular biology, allowing for comparisons between different organisms, identification of genetic variations, and studies of gene function and regulation.

An amino acid sequence is the specific order of amino acids in a protein or peptide molecule, formed by the linking of the amino group (-NH2) of one amino acid to the carboxyl group (-COOH) of another amino acid through a peptide bond. The sequence is determined by the genetic code and is unique to each type of protein or peptide. It plays a crucial role in determining the three-dimensional structure and function of proteins.

... goetzei Harms Sesbania grandiflora (L.) Poir. Sesbania greenwayi J.B.Gillett Sesbania hepperi J.B.Gillett Sesbania ... Sesbania mossambicensis Klotzsch Sesbania muelleri C.L.Gross Sesbania notialis J.B.Gillett Sesbania oligosperma Taub. Sesbania ... Sesbania keniensis J.B.Gillett Sesbania leptocarpa DC. Sesbania longifolia DC. Sesbania macowaniana Schinz Sesbania macrantha ... ex Baker Sesbania coccinea (L.f.) Poir. Sesbania coerulescens Harms Sesbania concolor J.B.Gillett Sesbania dalzielii E.Phillips ...
... has a tall single stem that is 4 to 8 feet tall. Seeds of Sesbania vesicaria are bean-like, nearly oblong in ... Sesbania vesicaria generally will grow as scattered individual plants but will sometimes form dense colonies. Sesbania ... Sesbania vesicaria is a tall, annual herb with a single main stem, 4 to 8 feet tall. This plant species is identified as being ... Sesbania vesicaria, commonly known as the bagpod or bladder pod, is a plant in the family Fabaceae native to North America. ...
"Sesbania punicea". U.S. Department of the Interior: Bureau of Land Management. Retrieved 10 April 2012. "Sesbania punicea". ... "Sesbania punicea (Fabaceae)". EPPO. Retrieved 10 April 2012. Bevilacqua, L. "'Callose' in the impermeable seed coat of Sesbania ... "Sesbania punicea, Sesbania tripetii, Daubentonia tripetii". Toptropicals.com - Rare Plants for Home and Garden. TopTropicals. ... "Invasives Database: Sesbania punicea". TexasInvasives.org. Retrieved 9 April 2012. "Sesbania punicea". Germplasm Resources ...
... (syn. Sesbania exaltata) is a species of flowering plant in the legume family known by the common names ... USDA, NRCS (n.d.). "Sesbania herbacea". The PLANTS Database (plants.usda.gov). Greensboro, North Carolina: National Plant Data ... Jepson Manual Treatment "Sesbania exaltata". Germplasm Resources Information Network. Agricultural Research Service, United ... bigpod sesbania, Colorado River-hemp, and coffeeweed. It is native to the United States, particularly the southeastern states, ...
Media related to Sesbania tomentosa at Wikimedia Commons Data related to Sesbania tomentosa at Wikispecies "Sesbania tomentosa ... Sesbania tomentosa, commonly known as Oahu riverhemp and ʻōhai, is an endangered species of plant in the pea family, Fabaceae, ... "Sesbania tomentosa". CPC National Collection Plant Profile. Center for Plant Conservation. Archived from the original on 2009- ... "Sesbania tomentosa". Germplasm Resources Information Network. Agricultural Research Service, United States Department of ...
... is a small semi-aquatic leguminous tree, in the genus Sesbania. It forms a symbiotic relationship with Gram- ... Sesbania rostrata is a woody, erect, robust, annual or short-lived perennial of about 1 to 3 m tall. The stem is covered with ... 2013). Sesbania Rostrata. In: Forestry Compendium. Wallingford, UK: CAB International. Retrieved from www.cabi.org/fc. (Date ... 2013). Sesbania Rostrata. In: Forestry Compendium. Wallingford, UK: CAB International. Retrieved from www.cabi.org/fc. (Date ...
The legume Sesbania bispinosa, also known as Sesbania aculeata (Willd.) Pers., is a small tree in the genus Sesbania. The ... Wikimedia Commons has media related to Sesbania aculeata. USDA Plants Profile New Crops Info Page "Sesbania aculeata". ... The name Sesbania is taken from its Arabic name Siesaban "سيسبان". It is known by many common names, including danchi, dunchi, ... Sesbania grandiflora Edible flowers Pictures of the tree Gỏi tép đồng và bông điên điển - Vietnamese dish Thailand, Cuisine ...
... is a nitrogen-fixing tree and may be useful in alley cropping. USDA, NRCS (n.d.). "Sesbania sesban". The PLANTS ... Sesbania sesban in West African plants - A Photo Guide. v t e (Articles with short description, Short description is different ... Sesbania sesban, the Egyptian riverhemp, is a species of plant in the legume family. Synonyms include: Aeschynomene aegyptiaca ... High differentiation among populations of the woody legume Sesbania sesban in sub-Saharan Africa: Implications for conservation ...
Other common names include sennabean and Drummond sesbania. USDA, NRCS (n.d.). "Sesbania drummondii". The PLANTS Database ( ... Sesbania drummondii, known as poisonbean, rattlebox and rattlebush, is a medium-sized perennial shrub in the legume family ...
... grandiflora Sesbania grandiflora pink variety S. grandiflora leaves Sesbania bispinosa Dolichandrone spathacea, known as Dok ... Sesbania grandiflora is a fast-growing tree. The leaves are regular and rounded and the flowers white, red or pink. The fruits ... Sesbania grandiflora, commonly known as vegetable hummingbird, katurai, agati, or West Indian pea, is a small leguminous tree ... Sesbania grandiflora (L.) Poir. Archived 2016-03-04 at the Wayback Machine [Internet] Record from Proseabase. L.'t Mannetje and ...
Wikimedia Commons has media related to Sesbania formosa. Sesbania formosa occurrence data from GBIF. (Articles with short ... "Australian Tropical Rainforest Plants: Sesbania formosa". apps.lucidcentral.org. Retrieved 2022-09-08. "Sesbania formosa (F. ... Sesbania formosa (common names - White dragon tree, Vegetable humming bird, Swamp corkwood; Dragon tree; Dragon flower tree) is ... It was transferred to the genus, Sesbania, by Nancy Burbidge in 1965. It is native to Western Australia and the Northern ...
Sesbania Adans. Shuteria Wight & Arn. Sigmoidala J.Compton & Schrire Sigmoidotropis (Piper) A.Delgado Sindora Miq. Sindoropsis ...
Sesbania virgata (Cav.) Pers. Fagaceae: Castanea sativa Mill. Quercus robur L. Juglandaceae: Carya illinoinensis (Wangenh.) K. ...
Sesbania punicea (Cav.) Benth.: 127 Setaria verticillata (†) (M) (L.) P. Beauv. Solanum lycopersicum (†) (M) L. var. ...
... of Sesbania spp". Archives of Microbiology. 189 (4): 411-8. doi:10.1007/s00203-007-0322-x. PMID 17989956. S2CID 5746480. Φ16-3 ...
Sesbania punicea (Cav.) Benth. (as P. punicea Cav.) Piscidia L. Plants of the World Online. Retrieved 14 September 2023. "Taxon ...
... sesbania (Sesbania spp.), parkia (Parkia biglobosa), tagasaste (Chamaecytisus palmensis), tephrosia (Tephrosia spp.), tamarind ... Sesbania, Gliricidia, Tephrosia, and Faidherbia albida are known as fertilizer trees. Tree lucerne or tagasaste (Cytisus ...
Sesbania leptocarpa DC. Sesbania pachycarpa DC. Sesbania rostrata Bremek. & Oberm. Sesbania sesban (L.) Merr. Sesbania sudanica ... Sesbania bispinosa (Jacq.) W.Wight Sesbania dalzielii E.Phillips & Hutch. ...
"Entity Display : Sesbania sesban". Archive.is. 2012-07-18. Archived from the original on 2012-07-18. Retrieved 2018-02-28.{{ ... "Entity Display : Sesbania grandiflora". Archive.is. 2012-07-13. Archived from the original on 2012-07-13. Retrieved 2018-02-28 ...
Randell Sesbania brachycarpa F.Muell. Sesbania formosa (F.Muell.) N.T.Burb. Sesbania simpliciuscula F.Muell. ex Benth. Sida ...
Sesbania grandiflora, Terminalia tomentosa, Ziziphus jujuba and Ziziphus mauritiana. and recently from Sesbania sesban. During ... "New record of Euproctis lunata Walker and Euproctis subnotata Walker on Sesbania sesban (L.) Merrill". Research Gate. Retrieved ...
and Sesbania virgata (Caz.) Pers.: A Highly Specific Symbiosis". In Pedrosa FO, Hungria M, Yates G, Newton WE (eds.). Nitrogen ... Microsymbiont of Sesbania virgata (Caz.) Pers.". Systematic and Applied Microbiology. 29 (3): 197-206. doi:10.1016/j.syapm. ... Strains of this species were originally isolated from root nodules of the shrub Sesbania virgata in Brazil. They have also been ... Gonçalves M, Moreira FM (2004). "Specificity of the legume Sesbania virgata (Caz.) Pers. and its nodule isolates Azorhizobium ...
Normally host in Sesbania grandiflora. It is known to be a major insect pest on cotton plants and melon fruits. "Acyrthosiphon ...
... , the sesbania stem borer, is a moth in the family Cossidae found in Pakistan, India, China, Sri Lanka, ... The larvae feed on Sesbania species. They tunnel through the main stem of the host plant and also feed on the roots and eat the ...
The larvae feed on Sesbania grandiflora. Beccaloni, G.; Scoble, M.; Kitching, I.; Simonsen, T.; Robinson, G.; Pitkin, B.; Hine ...
Sesbanieae is a tribe with single genus Sesbania, which was originally placed under tribe Robinieae. Loteae and Robinieae are ... Sesbanieae only has one genus Sesbania. Intratribal relationship: Sesbanieae is either sister to Loteae, or sister to the rest ...
Cases were collected in Sesbania litter. New species of Hyposmocoma (Lepidoptera, Cosmopterigidae) from the remote Northwestern ...
"Agrobacterium rhizogenes-mediated transformation of Sesbania rostrata". Plant Science. 165 (6): 1281-1288. doi:10.1016/S0168- ...
... a synonym of the legume genus Sesbania Adans. Darwinia (video game), a 2005 video game by Introversion Software Darwinia (novel ...
It has been observed in association with Sesbania spp. and Acacia nilotica ssp. tomentosa. It grows in disturbed habitat, such ...
Sesbania goetzei Harms Sesbania grandiflora (L.) Poir. Sesbania greenwayi J.B.Gillett Sesbania hepperi J.B.Gillett Sesbania ... Sesbania mossambicensis Klotzsch Sesbania muelleri C.L.Gross Sesbania notialis J.B.Gillett Sesbania oligosperma Taub. Sesbania ... Sesbania keniensis J.B.Gillett Sesbania leptocarpa DC. Sesbania longifolia DC. Sesbania macowaniana Schinz Sesbania macrantha ... ex Baker Sesbania coccinea (L.f.) Poir. Sesbania coerulescens Harms Sesbania concolor J.B.Gillett Sesbania dalzielii E.Phillips ...
Here this vendor prepares sesbania flowers which are added to gang som. ...
Member of the iNaturalist Network , Powered by iNaturalist open source software , Documentation for developers ...
... sesbania, is widely used in Indian folk medicine for the treatment of liver disorders. Oral administration of an ethanolic ... Sesbania grandiflora, commonly known as sesbania, is widely used in Indian folk medicine for the treatment of liver disorders ... Protective effect of Sesbania grandiflora against erythromycin estolate-induced hepatotoxicity Leelavinothan Pari 1 , ... Protective effect of Sesbania grandiflora against erythromycin estolate-induced hepatotoxicity Leelavinothan Pari et al. ...
... sesbania, is widely used in Indian folk medicine for the treatment of liver disorders. Oral administration of an ethanolic ... Sesbania grandiflora, commonly known as sesbania, is widely used in Indian folk medicine for the treatment of liver disorders ... Protective effect of Sesbania grandiflora against erythromycin estolate-induced hepatotoxicity Leelavinothan Pari 1 , ... Protective effect of Sesbania grandiflora against erythromycin estolate-induced hepatotoxicity Leelavinothan Pari et al. ...
Sesbania punicea. Photo by Eric Hunt (cc).. Red sesbania (Sesbania punicea), also known as Scarlet wisteria or rattlebrush, is ... Like red sesbania, Western redbud grows well along streams, but unlike red sesbania, it is a good soil stabilizer and ... Like red sesbania, western redbud is also a shrub or small tree in the pea family that drops its leaves in the wintertime. ... Red sesbania plants usually become reproductive when they are two to three years old and can produce 100 to 1000 seed pods per ...
... - View calories, protein, carbs, fats, vitamins, minerals, and ... A pie chart showing the macro nutrient componenets for Sesbania Flower Cooked Steamed Without Salt. This food consists of 93.56 ... There are 23 calories in Sesbania Flower Cooked Steamed Without Salt coming from 19% protein, 81% carbs, 0% fat, and 0% alcohol ...
0 records returned of 11 for species: Sesbania campylocarpa Data Profile: ALA General *ALA General ...
... Sample information. Sample ID. 129-122-2. Species. cannabina. Genus. Sesbania. Family. FABACEAE. ...
Sesbania grandiflora. Accessed: 30 May 2021.. *USDA, ARS, Germplasm Resources Information Network. Sesbania grandiflora in the ... Sesbania grandiflora. Published online. Accessed: May 30 2021.. *Tropicos.org 2021. Sesbania grandiflora. Missouri Botanical ... Sesbania grandiflora. World Plants: Synonymic Checklists of the Vascular Plants of the World In: Roskovh, Y., Abucay, L., ... Sesbania grandiflora. Taxonavigation Edit Taxonavigation: Fabales Classification System: APG IV Superregnum: Eukaryota Regnum: ...
"Sesbania punicea". University of Florida, IFAS. Retrieved 30 August 2012.. * ^ a b c d e "Invasives Database: Sesbania punicea" ... "Sesbania punicea, Sesbania tripetii, Daubentonia tripetii". TopTropicals.com. Retrieved 9 April 2012.. ... "Sesbania punicea (Fabaceae)". EPPO. Retrieved 10 April 2012.. * ^ Bevilacqua, L. "Callose in the impermeable seed coat of ... "Sesbania punicea". California Invasive Plant Council. Retrieved 9 April 2012.. * ^ Hoffmann, J.H.; Moran, V.C. (1989). "Novel ...
Nutrition facts label and information for Sesbania flower, raw - Per 100 grams: 27.0 calories, 0.04g fat, 6.73g carbohydrate, ...
Sesbania Gum Split is the endosperm of the seeds of natural strains of the Sesbania Plant. ... Sesbania Gum Splits are extracted from Sesbania Beans by a state of art Thermomechanical Process. ...
What is Sesbania Grandiflora Sesbania Grandiflora, scientifically known as Sesbania sesban or Aeschynomene grandiflora, is a ... Tag: sesbania grandiflora seeds. Aug82023 by Lauro BraganzaNo Comments ... In this blog post, we will delve into the many benefits of Sesbania Grandiflora, along with some precautions you should be ... Katuray: 10 Health Benefits of Sesbania Grandiflora and Side Effects. Food and Health ...
Agastya - Sesbania Grandiflora. / Dravya Guna Vigyan, Medicinal Plants / By Editorial Board Agastya (Sesbania grandiflora): A ... Basonym of Drug: The medicinal plant known as Agastya is scientifically referred to as Sesbania grandiflora. ...
Documents about Sesbania punicea (SEBPU)
... t, Green Tea Extract, Acerola Cherry, Bamboo Shoot ... Decrease quantity for Bliss Welness BeautyBliss Collagen Builder with Biotin Sesbania Extract, Green Tea Extract, Acerola ... Increase quantity for Bliss Welness BeautyBliss Collagen Builder with Biotin Sesbania Extract, Green Tea Extract, Acerola ... Bliss Welness BeautyBliss Collagen Builder with Biotin Sesbania Extract, Green Tea Extract, Acerola Cherry, Bamboo Shoot ...
Species profile-Sesbania pachycarpa. Classification. Plantae (plants) → Equisetopsida (land plants) → Leguminosae → Sesbania ... Sesbania pachycarpa DC.. WildNet taxon ID. 38620. Conservation significant. No. Confidential. No. Endemicity. Exotic. Pest ...
Sesbania goetzei Harms. Email comments. HIGHER TAXON: Robinieae GENUS: Sesbania Scop. Sesbania goetzei Harms [Preferred name] ... Kirkia 13(1):11-51.Sesbania in Flora Zambesiaca region. [Home , Genus , Latin names]. Version 10.38 20 July 2010. © ILDIS 2006- ...
Sesbania bispinosa (Jacq.) W.Wight. Check for more information on the species:. African Plants Database. Names, synonymy and ...
Artikelnummer: 54003BS Kategorien: Essence of Nature Classic Collection, Essence of Nature Classic Sesbania, Kollektionen RF, ... Essence of Nature Classic Sesbania 100ml Summer Blossoms. Preisangaben nach Anmeldung sichtbar. ...
Hummingbird tree (Sesbania grandiflora) Agathi Keerai. Sesbania grandiflora is a small erect, fast-growing, and sparsely ...
Buy Hummingbird Tree, Sesbania Grandiflora, अगस्त/आकाश फूल का पौधा, August, Akash Flower Plant Online in Delhi NCR ... Hummingbird Tree, August, Akash Flower Plant - Sesbania grandiflora (syn. Aeschynomene grandiflora, Agati grandiflora) also ...
Sesbania grandiflora, a small tree up to 15 m tall, is a traditional medicinal plant collected from South Lampung, Indonesia. ... Phytochemical Study On Sesbania Grandiflora Roots And Synthesis Of Selected Flavonoid Precursors (Chalcones Derivatives) ...
Sesbania rostrata and Sesbania sesban) grown on the tailings amended with domestic refuse and/or fertilizer. It was revealed ... Yang, B., Shu, W. S., Ye, Z. H., Lan, C. Y., & Wong, M. H. (2003). Growth and metal accumulation in vetiver and two Sesbania ... Dive into the research topics of Growth and metal accumulation in vetiver and two Sesbania species on lead/zinc mine tailings ... Roots of these species accumulated similar levels of heavy metals, but the shoots of two Sesbania species accumulated higher (3 ...
The Tennessee-Kentucky Plant Atlas is a source of data for the distribution of plants within the state as well as taxonomic, conservation, invasive, and wetland information for each species. The website also provides access to a database and images of plants photos and herbarium specimens found at participating herbaria.
Sesbania grandiflora (Leguminosae). Bokful. Leaves. Used to treat ulcers. [284,285]. Smilax ovalifolia ( Smilacaceae). ... Bhalke, R.D.; Giri, M.A.; Anarthe, S.J.; Pal, S.C. Antiulcer activity of the ethanol extract of leaves of Sesbania grandiflora ...
keywords = "Growth performance, Intercropping, Pb/Zn mine, Sesbania rostrata, Sesbania sesban, Tailings amendment, Vetiveria ... Sesbania rostrata and Sesbania sesban) grown on the tailings amended with domestic refuse and/or fertilizer. It was revealed ... Sesbania rostrata and Sesbania sesban) grown on the tailings amended with domestic refuse and/or fertilizer. It was revealed ... Sesbania rostrata and Sesbania sesban) grown on the tailings amended with domestic refuse and/or fertilizer. It was revealed ...
  • Sesbania goetzei Harms Sesbania grandiflora (L.) Poir. (wikipedia.org)
  • Therefore, the aim of study was to evaluate the coagulation activity of NaCl extract from Leucaena leucocephala and Sesbania grandiflora seeds on the removal of turbidity for water purification. (degruyter.com)
  • The aim of the study was to evaluate the effect of crude protein (CP) levels in concentrate and Sesbania grandiflora pod meal (SG) supplementations on feed intake, rumen fermentation, and methane (CH4) mitigation in Thai purebred beef cattle. (preprints.org)
  • Basics biotin contains vitamin C as ascorbic acid, zinc as zinc citrate along with natural vitamins - vitamin E as alpha- tocopherol, vitamin A as beta carotene and vitamin B7 as biotin from natural Sesbania grandiflora. (unived.in)
  • If you want to buy Sesbania Grandiflora In India , Botanic Healthcare is a professionally managed company globally recognized for adhering to USFDA, TGA, MEDSAFE and EU guidelines. (botanichealthcare.net)
  • Being counted among the top Sesbania Grandiflora Manufacturers in India , we have the most sophisticated technology, a team of professionals and an extensive distribution network to meet bulk orders of pharmaceuticals, cosmetics, food, dietary supplements, personal care industries and more. (botanichealthcare.net)
  • Throughout the process, we focus on retaining purity, quality characteristics and effectiveness of the Sesbania Grandiflora . (botanichealthcare.net)
  • If you are looking for one of the reputed Sesbania Grandiflora Exporters and Suppliers in India , we assure a safe supply within a stipulated time frame. (botanichealthcare.net)
  • Notable species include the rattlebox (Sesbania punicea), spiny sesbania (Sesbania bispinosa), and Sesbania sesban, which is used in cooking. (wikipedia.org)
  • Link - papagayo Sesbania sesban (L.) Merr. (wikipedia.org)
  • Roots of trees (Sesbania sesban) and crops (Zea mays) were quantified during two tree/crop cycles in a sequential tree - crop system at Chipata, Eastern Zambia. (cifor-icraf.org)
  • Sesbania is a genus of flowering plants in the pea family, Fabaceae, and the only genus found in tribe Sesbanieae. (wikipedia.org)
  • Sesbania paucisemina J.B.Gillett Sesbania punicea (Cav. (wikipedia.org)
  • The photographer's identification Sesbania punicea has not been reviewed. (berkeley.edu)
  • SESBANIA PUNICEA (Cavanilles) Bentham, in Martius, Fl. (usf.edu)
  • The species of rhizobia responsible for nitrogen fixation in Sesbania rostrata is Azorhizobium caulinodans. (wikipedia.org)
  • 60 species are accepted: Sesbania benthamiana Domin Sesbania bispinosa (Jacq. (wikipedia.org)
  • Browse the list of datasets and find organisations you can join if you are interested in participating in a survey for species like Sesbania campylocarpa ( Domin ) N.T.Burb. (ala.org.au)
  • Burbidge, N.T. (1965), The Australian species of Sesbania Scopoli (Leguminosae). (ala.org.au)
  • Flora of Malawi: Species information: Sesbania tetraptera subsp. (malawiflora.com)
  • Sesbania brevipedunculata J.B.Gillett Sesbania burbidgeae C.L.Gross Sesbania campylocarpa (Domin) N.T.Burb. (wikipedia.org)
  • Sesbania campylocarpa ( Domin ) N.T.Burb. (ala.org.au)
  • rattlebox Sesbania quadrata J.B.Gillett Sesbania rostrata Bremek. (wikipedia.org)
  • Sesbania exasperata Kunth Sesbania formosa (F.Muell. (wikipedia.org)
  • The Sesbania formosa is known as the White Dragon Tree or Swamp Corkwood. (ecrater.com)
  • The response of the phosphate uptake system and the organic acid exudation system to phosphate starvation in Sesbania rostrata. (arccjournals.com)
  • Citations: Performance of Direct Seeded Rice under Various Planting Distances of Dhaincha (Sesbania aculeata L. (scialert.net)
  • C 34 H 42 O 20 , [M + ] 770 (FABMS) has been isolated from the stems of Sesbania aculeata Pers. (ijpsr.com)
  • Sesbania cannabina (Retz. (wikipedia.org)
  • We investigated the utilization of insoluble ferric phosphate, which is generally less available for agricultural crops, by Sesbania cannabina inoculated with phosphate-solubilizing rhizobia. (arccjournals.com)
  • Tricalcium phosphate solubilization by root nodule bacteria of Sesbania cannabina and Crotalaria juncea. (arccjournals.com)
  • 2021. Sesbania sericea in Kew Science Plants of the World Online . (wikimedia.org)
  • Sesbania sericea (Willd. (wikipedia.org)
  • Sesbania sericea in the Germplasm Resources Information Network (GRIN) , U.S. Department of Agriculture Agricultural Research Service. (wikimedia.org)
  • Sesbania macowaniana Schinz Sesbania macrantha Welw. (wikipedia.org)
  • Sesbania pachycarpa DC. (wikipedia.org)
  • Herein we report the fatty acid, amino acid and mineral and trace element content of three leafy plant foods collected in July 2002 in the villages of Droum and Zongon Mallam in the Republic of Niger: cecego (Sesbania pachycarpa), godilo/gudai (Crataeva religiosa), and cabbage leaf (Brassica oleracea var. (cdc.gov)
  • Sesbania is often planted on the contour between crops such as maize, beans, cotton, or even other grasses, such as Napier as a soil conservation measure. (esraggbi.org)
  • Sesbania subalata J.B.Gillett Sesbania sudanica J.B.Gillett Sesbania tetraptera Hochst. (wikipedia.org)
  • Sesbania tetraptera Hochst. (malawiflora.com)
  • Rapid growth, combined with high levels of nitrogen fixation, make sesbania excellent for soil conservation and fertility improvement, particularly as a component of improved fallow systems. (esraggbi.org)
  • However, it should be noted that sesbania contains a poisonous saponin which makes it fatal to young chicks, so it should not be included in poultry diets, and should only be fed in limited amounts to other non-ruminants. (esraggbi.org)
  • Fossil seed pods from the upper Oligocene resembling Sesbania have been found in the Hungarian locality of Eger Wind-brickyard. (wikipedia.org)
  • Sesbania is a fast-growing leguminous shrub or small tree, found both in the humid tropics and in more arid and semi-arid regions. (esraggbi.org)
  • Sesbania grows in cooler, higher elevation regions than most tropical tree legumes. (esraggbi.org)