Your search keyword '"Buttstedt A"' showing total 7 results

1. Royal jelly in focus

Author

Kurth, T., Kretschmar, S., and Buttstedt, A.

Published

2019

2. Transcriptional Control of Honey Bee (Apis mellifera) Major Royal Jelly Proteins by 20-Hydroxyecdysone

Author

Paul Winkler, Frank Sieg, and Anja Buttstedt

Subjects

juvenile hormone, ecdysone, vitellogenin, social insect, mrjp, apalbumin, division of labor, Science

Abstract

One of the first tasks of worker honey bees (Apis mellifera) during their lifetime is to feed the larval offspring. In brief, young workers (nurse bees) secrete a special food jelly that contains a large amount of unique major royal jelly proteins (MRJPs). The regulation of mrjp gene expression is not well understood, but the large upregulation in well-fed nurse bees suggests a tight repression until, or a massive induction upon, hatching of the adult worker bees. The lipoprotein vitellogenin, the synthesis of which is regulated by the two systemic hormones 20-hydroxyecdysone and juvenile hormone, is thought to be a precursor for the production of MRJPs. Thus, the regulation of mrjp expression by the said systemic hormones is likely. This study focusses on the role of 20-hydroxyecdysone by elucidating its effect on mrjp gene expression dynamics. Specifically, we tested whether 20-hydroxyecdysone displayed differential effects on various mrjps. We found that the expression of the mrjps (mrjp1–3) that were finally secreted in large amounts into the food jelly, in particular, were down regulated by 20-hydroxyecdysone treatment, with mrjp3 showing the highest repression value.

Published

2018

3. More than royal food - Major royal jelly protein genes in sexuals and workers of the honeybee Apis mellifera

Author

Anja Buttstedt, Robin F. A. Moritz, and Silvio Erler

Subjects

Caste system, MRJP, food.ingredient, Social insect, Research, Apalbumin, fungi, education, Zoology, Biology, Brood, Royalactin, food, Queen determination, Royal jelly, behavior and behavior mechanisms, Caste determination, Animal Science and Zoology, Gene, Ecology, Evolution, Behavior and Systematics

Abstract

Background In the honeybee Apis mellifera, female larvae destined to become a queen are fed with royal jelly, a secretion of the hypopharyngeal glands of young nurse bees that rear the brood. The protein moiety of royal jelly comprises mostly major royal jelly proteins (MRJPs) of which the coding genes (mrjp1-9) have been identified on chromosome 11 in the honeybee’s genome. Results We determined the expression of mrjp1-9 among the honeybee worker caste (nurses, foragers) and the sexuals (queens (unmated, mated) and drones) in various body parts (head, thorax, abdomen). Specific mrjp expression was not only found in brood rearing nurse bees, but also in foragers and the sexuals. Conclusions The expression of mrjp1 to 7 is characteristic for the heads of worker bees, with an elevated expression of mrjp1-4 and 7 in nurse bees compared to foragers. Mrjp5 and 6 were higher in foragers compared to nurses suggesting functions in addition to those of brood food proteins. Furthermore, the expression of mrjp9 was high in the heads, thoraces and abdomen of almost all female bees, suggesting a function irrespective of body section. This completely different expression profile suggests mrjp9 to code for the most ancestral major royal jelly protein of the honeybee.

Published

2013

4. What Is the Main Driver of Ageing in Long-Lived Winter Honeybees: Antioxidant Enzymes, Innate Immunity, or Vitellogenin?

Author

Aurori, Cristian M., Buttstedt, Anja, Dezmirean, Daniel S., Mărghitaş, Liviu A., Moritz, Robin F. A., and Erler, Silvio

Subjects

*INSECT aging, *PHYSIOLOGICAL aspects of aging, *BEES, *ENZYMES, *AGING -- Immunological aspects, *IMMUNITY, *VITELLOGENINS, *PROTEIN precursors

Abstract

To date five different theories compete in explaining the biological mechanisms of senescence or ageing in invertebrates. Physiological, genetical, and environmental mechanisms form the image of ageing in individuals and groups. Social insects, especially the honeybee Apis mellifera, present exceptional model systems to study developmentally related ageing. The extremely high phenotypic plasticity for life expectancy resulting from the female caste system provides a most useful system to study open questions with respect to ageing. Here, we used long-lived winter worker honeybees and measured transcriptional changes of 14 antioxidative enzyme, immunity, and ageing-related (insulin/insulin-like growth factor signaling pathway) genes at two time points during hibernation. Additionally, worker bees were challenged with a bacterial infection to test ageing- and infection-associated immunity changes. Gene expression levels for each group of target genes revealed that ageing had a much higher impact than the bacterial challenge, notably for immunity-related genes. Antimicrobial peptide and antioxidative enzyme genes were significantly upregulated in aged worker honeybees independent of bacterial infections. The known ageing markers vitellogenin and IlP-1 were opposed regulated with decreasing vitellogenin levels during ageing. The increased antioxidative enzyme and antimicrobial peptide gene expression may contribute to a retardation of senescence in long-lived hibernating worker honeybees. [ABSTRACT FROM PUBLISHER]

Published

2014

5. Origin and function of the major royal jelly proteins of the honeybee ( Apis mellifera) as members of the yellow gene family.

Author

Buttstedt, Anja, Moritz, Robin F. A., and Erler, Silvio

Subjects

*HONEYBEES, *ROYAL jelly, *PROTEINS, *LARVAE, *GENOMES, *GENES

Abstract

ABSTRACT In the honeybee, Apis mellifera, the queen larvae are fed with a diet exclusively composed of royal jelly ( RJ), a secretion of the hypopharyngeal gland of young worker bees that nurse the brood. Up to 15% of RJ is composed of proteins, the nine most abundant of which have been termed major royal jelly proteins ( MRJPs). Although it is widely accepted that RJ somehow determines the fate of a female larva and in spite of considerable research efforts, there are surprisingly few studies that address the biochemical characterisation and functions of these MRJPs. Here we review the research on MRJPs not only in honeybees but in hymenopteran insects in general and provide metadata analyses on genome organisation of mrjp genes, corroborating previous reports that MRJPs have important functions for insect development and not just a nutritional value for developing honeybee larvae. [ABSTRACT FROM AUTHOR]

Published

2014

6. More than royal food - Major royal jelly protein genes in sexuals and workers of the honeybee Apis mellifera.

Author

Buttstedt, Anja, Moritz, Robin F. A., and Erler, Silvio

Subjects

*ROYAL jelly, *PROTEIN genetics, *HONEYBEE behavior, *SEXUAL behavior in insects, *WORKER honeybees

Abstract

Background In the honeybee Apis mellifera, female larvae destined to become a queen are fed with royal jelly, a secretion of the hypopharyngeal glands of young nurse bees that rear the brood. The protein moiety of royal jelly comprises mostly major royal jelly proteins (MRJPs) of which the coding genes (mrjp1-9) have been identified on chromosome 11 in the honeybee's genome. Results We determined the expression of mrjp1-9 among the honeybee worker caste (nurses, foragers) and the sexuals (queens (unmated, mated) and drones) in various body parts (head, thorax, abdomen). Specific mrjp expression was not only found in brood rearing nurse bees, but also in foragers and the sexuals. Conclusions The expression of mrjp1 to 7 is characteristic for the heads of worker bees, with an elevated expression of mrjp1-4 and 7 in nurse bees compared to foragers. Mrjp5 and 6 were higher in foragers compared to nurses suggesting functions in addition to those of brood food proteins. Furthermore, the expression of mrjp9 was high in the heads, thoraces and abdomen of almost all female bees, suggesting a function irrespective of body section. This completely different expression profile suggests mrjp9 to code for the most ancestral major royal jelly protein of the honeybee. [ABSTRACT FROM AUTHOR]

Published

2013

7. How Honeybees Defy Gravity with Royal Jelly to Raise Queens.

Author

Buttstedt, Anja, Mureşan, Carmen I., Lilie, Hauke, Hause, Gerd, Ihling, Christian H., Schulze, Stefan-H., Pietzsch, Markus, and Moritz, Robin F.A.

Subjects

*HONEYBEES, *ROYAL jelly, *PROTEINS, *X-ray diffraction, *VISCOSITY

Abstract

Summary The female sex in honeybees ( Apis spp. ) comprises a reproductive queen and a sterile worker caste. Nurse bees feed all larvae progressively with a caste-specific food jelly until the prepupal stage. Only those larvae that are exclusively fed a large amount of royal jelly (RJ) develop into queens [ 1 ]. RJ is a composite secretion of two specialized head glands: the mandibular glands, which produce mainly fatty acids [ 2 ], and the hypopharyngeal glands, which contribute proteins, primarily belonging to the major royal jelly protein (MRJP) family [ 3 ]. Past research on RJ has focused on its nutritional function and overlooked its central role with regard to the orientation of the larva in the royal brood cell. Whereas workers are reared in the regular horizontal cells of the comb, the queen cells are specifically built outside of the normal comb area to accommodate for the larger queen [ 4, 5 ]. These cells hang freely along the bottom of the comb and are vertically oriented, opening downward [ 6 ]. Queen larvae are attached by their RJ diet to the cell ceiling. Thus, the physical properties of RJ are central to successful retention of larvae in the cell. Here, we show that the main protein of RJ (MRJP1) polymerizes in complex with another protein, apisimin, into long fibrous structures that build the basis for the high viscosity of RJ to hold queen larvae on the RJ surface. [ABSTRACT FROM AUTHOR]

Published

2018