王浆主蛋白MRJP7基因在意大利蜜蜂体内的表达

王浆蛋白是蜂王浆生物功能的物质基础,是由王浆蛋白基因家族(mrjps)编码合成的。但部分家族成员如MRJP7在王浆中的含量极少甚至检测不到。基因功能与其在生物体内的时空表达特性相关,为探究mrjp7的生物学功能,本研究利用荧光定量PCR技术对mrjp7在不同发育时期的工蜂和成年工蜂、雄蜂和蜂王的不同组织部位的表达进行定量检测。结果显示mrjp7在成年雄蜂体内的表达水平最低,成年蜂王次之,且在它们的各不同组织部位之间的表达量差异较小。该基因在工蜂幼虫和蛹期的表达同样较低,但在羽化后9日龄前后的哺育蜂王浆腺和头部特异性高表达,这与哺育蜂分泌蜂王浆哺育幼虫和蜂王的功能是相适应的,该结果在转录水平上证实了mrjp7的营养功能,为进一步的研究和应用打下了理论基础。     

蜜蜂体内王浆主蛋白基因mrjp9的转录表达研究

蜜蜂体内有9种王浆蛋白基因(major royal jelly protein,MRJPs1～9),其中MRJPs1～5在蜂王浆中含量较高,是蜂王浆生物学功能的基础。MRJPs6～9在王浆中没有或含量极少,且功能未知。为研究非王浆蛋白组分的MRJP9的生物学功能,本研究用RT-PCR的方法对意大利蜜蜂Apis mellifera ligustica Spinola不同组织,不同部位,不同级型样本中mrjp9的转录水平进行检测和定量。结果发现mrjp9在蜜蜂的幼虫、蛹和成年蜜蜂的各组织部位均广泛转录表达,但其在幼虫、蛹和刚出房的成年蜜蜂体内表达水平较低,而在成年采集蜂体内表达水平则较高,其表达与蜜蜂的发育时期有关。通过对在成年蜜蜂体内各组织部位的表达水平进行检测的结果显示该基因主要在蜜蜂的头、胸和王浆腺等组织部位的表达较高,其他组织部位表达较少。此外,该基因也在雄蜂和蜂王体内广泛表达,不受蜜蜂性别和级型的影响。这些结果说明mrjp9是一与蜜蜂发育有关的基因,可能与蜜蜂的行为发育和分工调控有关。     

西方蜜蜂不同级型王浆主蛋白MRJP8基因的表达差异

王浆主蛋白在蜜蜂的级型分化中具有重要的功能。为探究mrjp8在西方蜜蜂Apis mellifera不同级型的表达模式及功能差异。【方法】 利用荧光定量PCR技术对西方蜜蜂工蜂、 雄蜂和蜂王不同发育时期和不同组织的mrjp8表达水平进行检测。【结果】 工蜂体内mrjp8在9日龄前后的毒腺组织内特异性高表达, 为参照基因表达量的上万倍, 在其他发育时期和组织的表达量则明显较低, 其表达具有明显的时空特异性; 在雄蜂体内其表达量与对照相当; 在蜂王体内表达量可达参照的近1 000倍, 没有组织特异性。【结论】 mrjp8的这种表达模式提示其在工蜂防御及维系蜂王长寿命方面有积极作用, 这为进一步研究该基因乃至整个王浆蛋白基因家族的进化和功能分化提供了依据。     

Behavior and molecular physiology of nurses of worker and queen larvae in honey bees (Apis mellifera)

In a honey bee colony, worker bees rear a new queen by providing her with a larger cell in which to develop and a large amount of richer food (royal jelly). Royal jelly and worker jelly (fed to developing worker larvae) differ in terms of sugar, vitamin, protein and nucleotide composition. Here we examined whether workers attending queen and worker larvae are separate specialized sub-castes of the nurse bees. We collected nurse bees attending queen larvae (AQL) and worker larvae (AWL) and compared gene expression profiles of hypopharyngeal gland tissues, using Solexa/Illumina digital gene expression tag profiling (DGE). Significant differences in gene expression were found that included a disproportionate number of genes involved in glandular secretion and royal jelly synthesis. However behavioral observations showed that these were not two entirely distinct populations. Nurse workers were observed attending both worker larvae and queen larvae, and there was no evidence of a specialized group of workers that preferentially or exclusively attended developing queens. Nevertheless, AQL attended larvae more frequently compared to AWL, suggesting that nurses sampled attending queen larvae may have been the most active nurses. This study serves as another example of the relationship between differences in gene expression and behavioral specialisation in honey bees.     

Transcriptome differences in the hypopharyngeal gland between Western Honeybees (Apis mellifera) and Eastern Honeybees (Apis cerana)

Background

Apis mellifera and Apis cerana are two sibling species of Apidae. Apis cerana is adept at collecting sporadic nectar in mountain and forest region and exhibits stiffer hardiness and acarid resistance as a result of natural selection, whereas Apis mellifera has the advantage of producing royal jelly. To identify differentially expressed genes (DEGs) that affect the development of hypopharyngeal gland (HG) and/or the secretion of royal jelly between these two honeybee species, we performed a digital gene expression (DGE) analysis of the HGs of these two species at three developmental stages (newly emerged worker, nurse and forager).

Results

Twelve DGE-tag libraries were constructed and sequenced using the total RNA extracted from the HGs of newly emerged workers, nurses, and foragers of Apis mellifera and Apis cerana. Finally, a total of 1482 genes in Apis mellifera and 1313 in Apis cerana were found to exhibit an expression difference among the three developmental stages. A total of 1417 DEGs were identified between these two species. Of these, 623, 1072, and 462 genes showed an expression difference at the newly emerged worker, nurse, and forager stages, respectively. The nurse stage exhibited the highest number of DEGs between these two species and most of these were found to be up-regulated in Apis mellifera. These results suggest that the higher yield of royal jelly in Apis mellifera may be due to the higher expression level of these DEGs.

Conclusions

In this study, we investigated the DEGs between the HGs of two sibling honeybee species (Apis mellifera and Apis cerana). Our results indicated that the gene expression difference was associated with the difference in the royal jelly yield between these two species. These results provide an important clue for clarifying the mechanisms underlying hypopharyngeal gland development and the production of royal jelly.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-744) contains supplementary material, which is available to authorized users.     

Ethanol‐soluble proteins from the royal jelly of Xinjiang black bees

Royal jelly is a nutritious food that has beneficial effects to human health. However, the functional substances remain unclear. Herein, we fractioned the royal jelly proteins of Xinjing black bees according to the Osboren method. Two main proteins from the ethanol‐soluble fraction were purified and identified. RJG‐1 was determined as glucosylceramidase, and RJG‐2 was major royal jelly protein 1 (MRJP1). RJG‐1 showed potent cytotoxicity toward various mammalian cells, and caused quick disruption of cell membranes. With glucosylceramidase activity, RJG‐1 may degrade the glucosylceramide of the cell membranes and disrupt the membrane structure, thereby resulting in cell necrosis. This study extends our knowledge about the composition and function of royal jelly, and is significant for the application of royal jelly.     

Effects of Elevated Cytosolic Glutathione Reductase Activity on the Cellular Glutathione Pool and Photosynthesis in Leaves under Normal and Stress Conditions

Tobacco (Nicotiana tabacum var Samsun) was transformed using the bacterial gor gene coding for the enzyme glutathione reductase. Transgenic plants were selected by their kanamycin resistence and expression of the bacterial gor gene. After separation by isoelectric focusing techniques, leaf extracts from transgenic plants having both native and bacterial glutathione reductase activity gave, in addition to the six bands of the native enzyme, two further closely running isoenzymes. These additional bands originating from the expression of the bacterial gor gene were nonchloroplastic. Leaves from transgenic plants had two- to 10-fold higher glutathione reductase activity than non-transgenic controls. The amount of extractable glutathione reductase activity obtained in transgenic plants was dependent on leaf age and the conditions to which leaves were exposed. Both light and exposure to methylviologen increased leaf glutathione reductase activity. Elevated levels of cytosolic glutathione reductase activity in transgenic plants had no effect on the amount or reduction state of the reduced glutathione/oxidized glutathione pool under optimal conditions or oxidative conditions induced by methylviologen. The glutathione pool was unaltered despite the oxidation-dependent loss of CO₂ assimilation and oxidation of enzymes involved in photosynthesis. However, the reduction state of the ascorbate pool was greater in transgenic plants relative to nontransgenic controls following illumination of methylviologen-treated leaf discs. Therefore, we conclude that in the natural state glutathione reductase is present in tobacco at levels above those required for maximal operation of the ascorbate-glutathione pathway.     

Transgenic silkworms secrete the recombinant glycosylated MRJP1 protein of Chinese honeybee, <Emphasis Type="Italic">Apis cerana cerana</Emphasis>

Major royal jelly protein-1 (MRJP1) is the most abundant glycoprotein of royal jelly (RJ) and is considered a potential component of functional foods. In this study, we used silkworm transgenic technology to obtain five transgenic silkworm lineages expressing the exogenous recombinant Chinese honeybee, Apis cerana cerana, protein-1 (rAccMRJP1) under the control of a fibroin light chain (Fib-L) promoter in the posterior silk glands. The protein was successfully secreted into cocoons; specifically, the highest rAccMRJP1 protein content was 0.78% of the dried cocoons. Our results confirmed that the protein band of the exogenous rAccMRJP1 protein expressed in the transgenic silkworm lineages was a glycosylated protein. Therefore, this rAccMRJP1 protein could be used as an alternative standard protein sample to measure the freshness of RJ. Moreover, we also found that the overall trend between the expression of the endogenous and exogenous genes was that the expression level of the endogenous Fib-L gene declined as the expression of the exogenous rAccMRJP1 gene increased in the transgenic silkworm lineages. Thus, by employing genome editing technology to reduce silk protein expression levels, a silkworm bioreactor expression system could be developed as a highly successful system for producing various valuable heterologous proteins, potentially broadening the applications of the silkworm.     

Recipe for a Busy Bee: MicroRNAs in Honey Bee Caste Determination

Social caste determination in the honey bee is assumed to be determined by the dietary status of the young larvae and translated into physiological and epigenetic changes through nutrient-sensing pathways. We have employed Illumina/Solexa sequencing to examine the small RNA content in the bee larval food, and show that worker jelly is enriched in miRNA complexity and abundance relative to royal jelly. The miRNA levels in worker jelly were 7–215 fold higher than in royal jelly, and both jellies showed dynamic changes in miRNA content during the 4^th to 6^th day of larval development. Adding specific miRNAs to royal jelly elicited significant changes in queen larval mRNA expression and morphological characters of the emerging adult queen bee. We propose that miRNAs in the nurse bee secretions constitute an additional element in the regulatory control of caste determination in the honey bee.     

蜜蜂蜂王浆主蛋白(MRJPs)的研究进展

蜜蜂的蜂王浆主蛋白具有为蜂王和幼虫提供营养、影响蜂群社会行为及调节个体生理机能等作用,作为蜂王浆的主要成分对其他机体也可产生多方面的生物学功能。因此,近年来蜂王浆主蛋白的相关研究备受关注。本文针对蜂王浆主蛋白的发现、种类、功能、系统进化及其基因表达情况进行了系统综述。     

Overexpression of the enzyme p-hydroxyphenolpyruvate dioxygenase in Arabidopsis and its relation to tocopherol biosynthesis

The enzyme p-hydroxyphenylpyruvate dioxygenase (HPPD) catalyzes the conversion of p-hydroxyphenylpyruvate to homogentisic acid (HGA), the aromatic precursor for the biosynthesis of vitamin E (α-tocopherol) and plastoquinone. In order to determine if increased HPPD activity could positively impact tocopherol yields, transgenic plants were generated that overexpressed the gene encoding Arabidopsis HPPD. Transgenic plants exhibiting high levels of HPPD expression were identified by increased tolerance to a competitive inhibitor of HPPD, the herbicide sulcotrione. HPPD gene expression in these transgenic lines, as determined at the RNA, protein and activity levels, was at least 10-fold higher than that of wild-type plants. Subsequent tocopherol analysis of leaf and seed material revealed that the increased HPPD expression resulted in up to a 37% increase in leaf tocopherol levels and a 28% increase in seed tocopherol levels relative to control plants. These results demonstrate that HPPD activity, and likely HGA levels, are at least one factor limiting the production of tocopherols in photosynthetic and non-photosynthetic plant tissues.     

Antiapoptotic role of major royal jelly protein 8 of honeybee (Apis mellifera) venom

The dominant protein components of honeybee royal jelly (RJ) are major royal jelly proteins (MRJPs), which exhibit various biological properties. However, the biological basis of why bee venom contains MRJPs and what role MRJPs play in bee venom remains to be elucidated. This study reports the antiapoptotic role of MRJP 8 of Apis mellifera venom (AmMRJP 8) in melittin-treated mammalian cells. Recombinant AmMRJP 8 reduced caspase-3 activity and melittin-induced cell apoptosis. Additionally, recombinant AmMRJP 8 decreased the production levels of H₂O₂ and proinflammatory molecules. These results indicate that MRJP in bee venom plays a role in cell protection in bee venom-induced inflammatory responses.     

Histone deacetylase inhibitor activity in royal jelly might facilitate caste switching in bees

Worker and queen bees are genetically indistinguishable. However, queen bees are fertile, larger and have a longer lifespan than their female worker counterparts. Differential feeding of larvae with royal jelly controls this caste switching. There is emerging evidence that the queen-bee phenotype is driven by epigenetic mechanisms. In this study, we show that royal jelly--the secretion produced by the hypopharyngeal and mandibular glands of worker bees--has histone deacetylase inhibitor (HDACi) activity. A fatty acid, (E)-10-hydroxy-2-decenoic acid (10HDA), which accounts for up to 5% of royal jelly, harbours this HDACi activity. Furthermore, 10HDA can reactivate the expression of epigenetically silenced genes in mammalian cells. Thus, the epigenetic regulation of queen-bee development is probably driven, in part, by HDACi activity in royal jelly.     

More than royal food - <Emphasis Type="Italic">Major royal jelly protein</Emphasis> genes in sexuals and workers of the honeybee <Emphasis Type="Italic">Apis mellifera</Emphasis>

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.

     

Diet and cell size both affect queen-worker differentiation through DNA methylation in honey bees (Apis mellifera, Apidae)

Background

Young larvae of the honey bee (Apis mellifera) are totipotent; they can become either queens (reproductives) or workers (largely sterile helpers). DNA methylation has been shown to play an important role in this differentiation. In this study, we examine the contributions of diet and cell size to caste differentiation.

Methodology/Principal Findings

We measured the activity and gene expression of one key enzyme involved in methylation, Dnmt3; the rates of methylation in the gene dynactin p62; as well as morphological characteristics of adult bees developed either from larvae fed with worker jelly or royal jelly; and larvae raised in either queen or worker cells. We show that both diet type and cell size contributed to the queen-worker differentiation, and that the two factors affected different methylation sites inside the same gene dynactin p62.

Conclusions/Significance

We confirm previous findings that Dnmt3 plays a critical role in honey bee caste differentiation. Further, we show for the first time that cell size also plays a role in influencing larval development when diet is kept the same.     

Natural variation in enzyme activity of the African cichlid Pseudocrenilabrus multicolor victoriae

This study describes the metabolic capacities of the African cichlid Pseudocrenilabrus multicolor victoriae from four sites in Uganda, East Africa. Fish were captured during the dry season, from two aquatic systems in different regions (Lake Nabugabo and Mpanga River). Within the Lake Nabugabo region, individuals were sampled from Lake Kayanja (normoxic) and Lwamunda Swamp (hypoxic); within the Mpanga River system, individuals were sampled from Bunoga and Kahunge (characterized by seasonal variation in dissolved oxygen (D.O.)). Enzyme activity levels of pyruvate kinase, lactate dehydrogenase, citrate synthase, and cytochrome C oxidase were measured in four tissues: white skeletal muscle, heart, brain, and liver. Two additional enzymes were measured in the liver, malate dehydrogenase and fructose 1,6-bisphosphatase. Regional differences between enzyme activities in most tissues were evident; however, little variation was observed between two sites within a region despite differences in D.O. In general, P. multicolor from the Mpanga River system displayed greater anaerobic enzyme activity in white skeletal muscle, lower gluconeogenic enzyme activity in the liver, and an overall higher enzyme activity in the heart and brain tissues than fish from the Nabugabo region. The latter may reflect a long-term adaptation to low-oxygen conditions at the metapopulation level in the Nabugabo region.     

Mechanism of Action of Recombinant Acc-Royalisin from Royal Jelly of Asian Honeybee against Gram-Positive Bacteria

The antibacterial activity of royalisin, an antimicrobial peptide from the royal jelly produced by honeybees, has been addressed extensively. However, its mechanism of action remains unclear. In this study, a recombinant royalisin, RAcc-royalisin from the royal jelly of Asian honeybee Apis cerana cerana, was expressed by fusing with glutathione S-transferase (GST) in Escherichia coli BL21, isolated and purified. The agar dilution assays with inhibition zone showed that RAcc-royalisin, similar to nisin, inhibits the growth of Gram-positive bacteria. The antibacterial activity of RAcc-royalisin was associated with its concentration, and was weakened by heat treatment ranging from 55°C to 85°C for 15 min. Both RAcc-royalisin and nisin exhibited the minimum inhibitory concentrations (MIC) of 62.5 µg/ml, 125 µg/ml, and 250 µg/ml against Gram-positive bacterial strains, Bacillus subtilis and Micrococcus flavus and Staphyloccocus aureus in the microplate assay, respectively. However, RAcc-royalisin did not show antimicrobial activity against tested Gram-negative bacterial and fungal strains. The antibacterial activity of RAcc-royalisin agrees well with the decrease in bacterial cell hydrophobicity, the leakage of 260-nm absorbing materials, and the observation by transmission electron microscopy, all indicating that RAcc-royalisin induced the disruption and dysfunction of cell walls and membranes. This is the first report detailing the antibacterial mechanism of royalisin against Gram-positive bacteria, and provides insight into the application of recombinant royalisin in food and pharmaceutical industries as an antimicrobial agent.     

The chemical basis of honeybee, Apis mellifera, caste formation. Partial purification of queen bee determinator from royal jelly

On royal jelly, 1- to 2-day-old honeybee worker larvae have been reared in vitro to adults in a yield of 67±18 per cent. Up to 100 per cent and, on an average, 60 per cent of them were queens and intercaster. The preparation of a basic food from royal jelly by extensive alcohol extraction is described. With this control food, a survival rate of 47±18 per cent was achieved; 15 per cent of the adults were determined, 4·3 per cent of them were queens. Rearing of 1- to 2-day-old worker larvae on a basic food, to which unknown fractions may be added, was used as a biological test for the partial purification of queen bee determinator from royal jelly. By chromatography of the ethanol extract, previously treated with charcoal, on the cation exchanger Dowex 50 WX4 and rechromatography on silica gel, a 10⁵-fold purification of determinator was achieved. Chemical properties of the highly hydrophilic, low molecular active fraction are described.     

Prostaglandin D2 formation and characterization of its synthetases in various tissues of adult rats

When the amounts of primary prostaglandins formed from endogenous arachidonic acid were determined in homogenates of various tissues of adult rats, prostaglandin D2 was the major prostaglandin found in most tissues. It was formed actively in the spleen (3100 ng/g tissue/5 min at 25 degrees C), intestine (2600), bone marrow (2400), lung (1100), and stomach (630); moderately in the epididymis, skin, thymus, and brain (140-340); and weakly in other tissues (less than 100). Addition of exogenous arachidonic acid (1 mM) accelerated the formation of prostaglandin D2 in all tissues as follows: spleen (15,000); bone marrow, intestine, thymus, liver, and lung (1600-5200); stomach, adrenal gland, epididymis, brain, salivary gland, skin, spinal cord, and seminal vesicle (380-1000); and other tissues (80-310). The activity of prostaglandin D synthetase (prostaglandin-H2 D-isomerase) was detected in 100,000g supernatants of almost all tissues. As judged by glutathione requirement for the reaction, inhibition of the activity by 1-chloro-2,4-dinitrobenzene, and immunotitration or immunoabsorption analyses with specific antibodies, the enzyme in the epididymis, brain, and spinal cord (1.8-9.2 nmol/min/mg protein) was glutathione-independent prostaglandin D synthetase (Y. Urade, N. Fujimoto, and O. Hayaishi (1985) J. Biol. Chem. 260, 12410-12415). The enzyme in the spleen, thymus, bone marrow, intestine, skin, and stomach (2.0-57.1) was glutathione-requiring prostaglandin D synthetase (Y. Urade, N. Fujimoto, M. Ujihara, and O. Hayaishi (1987) J. Biol. Chem. 262, 3820-3825). The activity in the kidney and testis (3.7-4.5) was catalyzed by glutathione S-transferase. The activity in the liver, lung, adrenal gland, salivary gland, heart, pancreas, and muscle (0.6-5.1) was due to both the glutathione-requiring synthetase and the transferase.