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MULTI-LEVEL ANALYSIS OF REPRODUCTIVE CHANGES IN HONEY BEE QUEENS (APIS ... PDF

375 Pages·2012·5.63 MB·English
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The Pennsylvania State University The Graduate School Department of Entomology MULTI-LEVEL ANALYSIS OF REPRODUCTIVE CHANGES IN HONEY BEE QUEENS (APIS MELLIFERA L.) A Dissertation in Entomology by Elina Lastro Niño  2012 Elina Lastro Niño Submitted in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy May 2012 ii The dissertation of Elina Lastro Niño was reviewed and approved* by the following: Christina M. Grozinger Associate Professor of Entomology Dissertation Advisor Chair of Committee James Tumlinson Ralph O. Mumma Professor of Entomology Diana Cox-Foster Professor of Entomology James Marden Professor of Biology Anita Collins Adjunct Professor of Entomology Gary W. Felton Professor of Entomology Head of the Department of Entomology *Signatures are on file in the Graduate School iii ABSTRACT Mating is an intricate process that causes many changes on behavioral, physiological, and molecular level in females of sexually-reproducing species. Here, I study factors involved in triggering and maintaining reproductive changes in honey bee queens. These changes can be regulated by multiple factors including manipulation of the reproductive tract, insemination volume, and seminal fluids. In honey bees, carbon dioxide, which is used as an anesthetic during instrumental insemination, can also trigger post-mating changes. Previous studies on honey bees suggest that insemination volume and seminal fluid components both play a role in triggering queen post-mating changes. However, these studies only examined changes in newly mated/inseminated queens and did not directly uncouple the effects of volume and substance. The long-term effects on queens that have reached their final reproductive state – egg-laying – had not been previously characterized. By manipulating the mating process I examined the factors causing immediate behavioral changes and longer-term physiological and molecular changes in queens that reached their final reproductive state of high ovary activation. In chapter 1, I examined the behavioral (mating flights and egg-laying), physiological (ovary activation), and molecular (gene expression) changes in the queens treated with CO alone and queens treated with both CO and physical 2 2 manipulation. In chapter 2, I used the same parameters to characterize the queens inseminated with low and high volumes of either semen or saline. My data indicate that CO , physical 2 manipulation of the genital tract, and insemination volume cause early behavioral changes, while seminal fluid components play a role in maintaining long-term physiological and transcriptional changes. Mating also causes changes in production of queen pheromones which are important for regulating the behavior and physiology of workers, as well as overall colony organization. iv Therefore, an important question is whether or not mating quality can have long-term effects on pheromone production as well as on queen-worker interactions. Indeed, in chapter 3 I found that the above mentioned factors have distinct effects on two different pheromone producing glands in queens, and workers can detect these differences. Furthermore, in chapter 4 I demonstrated that the queen insemination volume affected worker behavior and physiology in colonies, as well as queen overwintering survival. In conjunction with previous studies, my results show that multiple factors are involved in regulating short- and long-term post-mating changes in honey bee queens. More importantly, in social insects, this not only affects the reproductive female, but can alter social interactions in entire colony by altering pheromone communication systems. The results of my dissertation will lead to improved breeding techniques of honey bees and other agriculturally important insects, and it will also provide fundamental insights into insect reproduction in general. v TABLE OF CONTENTS LIST OF FIGURES ................................................................................................................. viii LIST OF TABLES ................................................................................................................... ix PREFACE ................................................................................................................................ x ACKNOWLEDGMENTS ....................................................................................................... xii Introduction: Honey Bee Queen (Apis mellifera L.) Biology .............................................. 1 Honey Bee Social Organization ....................................................................................... 2 Female Caste Differentiation in Honey Bees ................................................................... 2 Queen Development and Mating ..................................................................................... 5 Instrumental Insemination ................................................................................................ 8 Queen Reproductive Changes .......................................................................................... 9 References ........................................................................................................................ 15 Chapter 1. Genome-wide analysis of brain transcriptional changes in honey bee queens (Apis mellifera L.) exposed to carbon dioxide and physical manipulation ... 25 Abstract ............................................................................................................................ 26 Introduction ...................................................................................................................... 27 Results .............................................................................................................................. 30 Behavioral Observations ............................................................................................. 30 Ovary Activation ......................................................................................................... 30 Vitellogenin Expression in Fat Bodies ........................................................................ 31 Brain Gene Expression ............................................................................................... 31 Comparative Analyses ................................................................................................ 32 Discussion ........................................................................................................................ 33 Experimental Procedure ................................................................................................... 39 General Bee Breeding ................................................................................................. 39 Behavioral Observation .............................................................................................. 40 Ovary Activation ......................................................................................................... 41 Vitellogenin Expression in Fat Bodies ........................................................................ 41 Brain Gene Expression ............................................................................................... 42 Comparative Analyses ................................................................................................ 44 Acknowledgments ............................................................................................................ 45 References ........................................................................................................................ 46 Chapter 2. Differential effects of insemination volume and substance on reproductive changes in honey bee queens (Apis mellifera L.) ................................... 57 Abstract ............................................................................................................................ 58 Introduction ...................................................................................................................... 60 Results .............................................................................................................................. 63 vi Behavioral Observation .............................................................................................. 63 Ovary Activation and Sperm Counts .......................................................................... 63 Gene Expression in Fat Bodies ................................................................................... 64 Comparative Analyses ................................................................................................ 66 qRT-PCR Confirmation of Expression of vitellogenin and transferrin Fat Bodies .... 67 Discussion ........................................................................................................................ 67 Materials and Methods ..................................................................................................... 72 General Bee Breeding ................................................................................................. 72 Behavioral Observation .............................................................................................. 73 Ovary Activation and Sperm Counts .......................................................................... 74 Gene Expression in Fat Bodies ................................................................................... 74 Comparative Analyses ................................................................................................ 76 qRT-PCR Confirmation of Expression of vitellogenin and transferrin Fat Bodies .... 77 Acknowledgments ............................................................................................................ 79 References ........................................................................................................................ 80 Chapter 3. Pheromone production in two glands is differentially regulated by distinct mating factors in honey bee queens (Apis mellifera L.) ................................. 97 Abstract ............................................................................................................................ 98 Introduction ...................................................................................................................... 99 Results .............................................................................................................................. 102 Effects on the Dufour’s Gland Pheromone ................................................................. 102 Effects on the Mandibular Gland Pheromone ............................................................. 102 Retinue Choice Assay ................................................................................................. 103 Discussion ........................................................................................................................ 103 Materials and Methods ..................................................................................................... 109 General Bee Breeding ................................................................................................. 109 Gland Preparation ....................................................................................................... 110 Chemical Analysis of Gland Extracts ......................................................................... 110 Retinue Choice Assay ................................................................................................. 112 Acknowledgments ............................................................................................................ 114 References ........................................................................................................................ 115 Chapter 4. Effects of honey bee (Apis mellifera L.) queen insemination volume on worker behavior and physiology................................................................................... 129 Abstract ............................................................................................................................ 130 Introduction ...................................................................................................................... 131 Materials and Methods ..................................................................................................... 134 General Beekeeping .................................................................................................... 134 Queen Longevity Measurements ................................................................................ 134 Brood Area Measurements ......................................................................................... 135 Worker Behavior ......................................................................................................... 136 Retinue Response ..................................................................................................... 136 Queen Cup and Cell Counts ..................................................................................... 137 Worker Physiology ..................................................................................................... 138 vii Characterization of Juvenile Hormone and Methyl Farnesoate Hemolymph Titers ........................................................................................................................ 138 Characterization of Worker Dufour’s Gland Extracts .............................................. 140 Results .............................................................................................................................. 141 Queen Longevity Measurements ................................................................................ 141 Brood Area Measurements ......................................................................................... 141 Worker Behavior ......................................................................................................... 142 Retinue Response ..................................................................................................... 142 Queen Cup and Cell Counts ..................................................................................... 142 Worker Physiology ..................................................................................................... 142 Characterization of Juvenile Hormone and Methyl Farnesoate Hemolymph Titers ........................................................................................................................ 142 Characterization of Worker Dufour’s Gland Extracts .............................................. 143 Discussion ........................................................................................................................ 143 Acknowledgments ............................................................................................................ 148 References ........................................................................................................................ 149 Conclusions and Future Research ........................................................................................ 158 Multiple insemination factors are involved in triggering and maintaining queen reproductive changes ................................................................................................ 158 Multiple factors modulate long-term changes in queen pheromone profiles and queen-worker interactions ........................................................................................ 160 Future Directions .............................................................................................................. 161 References ........................................................................................................................ 164 Appendix A. Supplementary Material for Chapter 1 ......................................................... 167 Appendix B. Supplementary Material for Chapter 2 ......................................................... 286 viii LIST OF FIGURES Figure 1: Worker and Queen Ovaries. ..................................................................................... 4 Figure 2: Uncapped Queen Cell. .............................................................................................. 6 Figure 3: Queen Mating Sign. .................................................................................................. 7 Figure 4: Instrumental Insemination ........................................................................................ 8 Figure 1-1: Queen Behavior and Ovary Activation ................................................................. 52 Figure 1-2: Vitellogenin Expression ........................................................................................ 53 Figure 1-3: Principal Components Analysis of Significant Brain Genes ................................ 54 Figure 2-1: Queen Reproductive Behavior and Ovary Activation ........................................... 85 Figure 2-2: qRT-PCR Confirmation of Expression Levels of vitellogenin and transferrin. ... 86 Figure 2-3: Fat Body Gene Expression Hierarchical Clustering and Principal Components Analysis ............................................................................................................................ 87 Figure 2-4: Biological Processes and Pathways Regulated Dependent on the Insemination Substance and Volume ............................................................................... 88 Figure 3-1: Queen Dufour’s Gland Pheromone Production .................................................... 121 Figure 3-2: Linear Discriminant Analysis of Queen Mandibular Gland Pheromone Components ..................................................................................................................... 122 Figure 3-3: Linear Discriminant Analysis of Queen Mandibular Gland Pheromone Components ..................................................................................................................... 123 Figure 3-4: Queen Retinue Choice Assay ................................................................................ 124 Figure 4-1: Queen Survival. ..................................................................................................... 155 Figure 4-2: Worker Behavior .................................................................................................. 156 Figure 4-3: Worker Physiology ............................................................................................... 157 ix LIST OF TABLES Table 1-1: Significant Gene Ontology terms for genes differing significantly among all three treatment groups ...................................................................................................... 55 Table 1-2: List of significantly regulated transcripts overlapping between the present study and those of Kocher et al. (2008) and (2010). Directionality of the gene expression among the studies is provided in Table S18................................................... 56 Table 2-1: Top 20 significant GO biological processes and GO pathways that were overrepresented for the significantly regulated genes among all five queen groups ....... 90 Table 2-2: Significant GO biological processes and GO pathways that were overrepresented for genes regulated by both saline and semen, saline only, and semen only regardless of the insemination volume ......................................................... 92 Table 2-3: Significant GO biological processes and GO pathways that were overrepresented for genes regulated by both 1and 8µl, 1µl only, and 8µl only regardless of the insemination substance ......................................................................... 94 x PREFACE This dissertation contains multiply authored chapters with Elina Lastro Niño being the first author. In chapter 1, ELN carried out the behavioral, physiological, and genetic studies, performed the statistical analysis, and drafted the manuscript. DRT participated in conception and design of the study, manipulated the queens, and reviewed the manuscript. CMG participated in the conception and design of the study, helped to draft the manuscript and coordinated the research. In chapter 2, ELN carried out the behavioral, physiological, and genetic studies, performed the statistical analysis, and drafted the manuscript. DRT participated in conception and design of the study, inseminated the queens, and reviewed the manuscript. CMG participated in the conception and design of the study, helped to draft the manuscript and coordinated the research. In chapter 3, ELN carried out the physiological observations, performed the mandibular gland analysis, performed the statistical analysis, and drafted the manuscript. DRT participated in conception and design of the study, manipulated and inseminated the queens, and reviewed the manuscript. OM and AH performed Dufour’s gland analysis and reviewed the manuscript. CMG participated in the conception and design of the study, helped to draft the manuscript and coordinated the research. In chapter 4, ELN carried out the behavioral observations and physiological manipulations, performed the statistical analysis, and drafted the manuscript. OM and AH performed Dufour’s gland analysis and reviewed the manuscript. PT performed the JH and MF

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lab for their technical support and beekeeping expertise protein kinase to shorten the length of developmental stages, and on p70 S6 vertically positioned queen cell (Figure 2), a wax chamber built by workers around a queen-.
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