The mud crab(Scylla paramamosain)has been successfully cultivated in chloride-type low-salinity alkaline waters,yet the molecular mechanisms underlying its adaptation to this environment remain elusive.This study seek...The mud crab(Scylla paramamosain)has been successfully cultivated in chloride-type low-salinity alkaline waters,yet the molecular mechanisms underlying its adaptation to this environment remain elusive.This study seeks to uncover the adaptation mechanisms of the antennal gland of mud crab under acute chloride-type low-salinity alkaline water stress.Three-hundred crabs were randomly selected and divided into two groups:the low salinity(LS,salinity of 2.2)group and the control group(CK,salinity of 23.4).Following a 120-h experimental period,the antennal glands were sampled for transcriptomic analysis.Experimental results show that acute chloride-type low-salinity saline-alkaline water stress led to a significant decline in the survivorship of mud crab.Through comparative transcriptomic analysis,we identified 923 differentially expressed genes(DEGs),among which 272 were upregulated and 651 were downregulated.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses revealed that the majority of these DEGs are closely linked to functions such as energy metabolism and osmoregulation.Notably,the pathways involving oxidoreductase activity,oxidative phosphorylation,symporter activity,and intracellular calcium-activated chloride channels were significantly enriched,highlighting their pivotal roles in enhancing the osmoregulatory capacity of mud crab and maintaining internal homeostasis in chloride-type low-salinity alkaline environments.Additionally,the upregulation of genes such as SLC6A9,SLC6A4,and FH further facilitated transmembrane ion transport and energy metabolism,thereby reinforcing intracellular isosmotic regulation.However,these controls also pose a potential risk of oxidative stress.Therefore,the antennal gland plays a crucial role in the response of mud crab to acute chloride-type low-salinity alkaline water stress.This study provides new insights into the adaptive mechanisms of mud crab and lays a theoretical foundation for enhancing chloride-type low-salinity alkaline water aquaculture techniques.展开更多
In insects,the number and specificity of antennal lobe glomeruli often reflect the number and diversity of expressed chemosensory genes,which are linked to its ecological niche and specific olfactory needs.The orienta...In insects,the number and specificity of antennal lobe glomeruli often reflect the number and diversity of expressed chemosensory genes,which are linked to its ecological niche and specific olfactory needs.The oriental armyworm,Mythimna separata,is an important and common lepidopteran pest of cereal crops.Given its reliance on the olfactory system for crucial behaviors,understanding the evolutionary potential of this system requires a thorough characterization of the anatomical structure of the primary olfactory center.Here,we systematically identified all antennal lobe glomeruli of M.separata based on synaptic antibody immunostaining and mass staining of the olfactory sensory neurons.A total of 69 glomeruli were identified in females and 65 in males,and an intuitive nomenclature based on glomerular positions was applied.Our findings uncovered some sex-specific glomeruli in this species.There were ten female-specific glomeruli and three male-specific glomeruli,except for the macroglomerular complex(MGC)units,with a notable observation that the female labial pit organ glomerulus was larger than its male counterpart.Additionally,we identified four antennal-lobe tracts(ALTs)and retrograde labeling from the calyx revealed that all glomeruli were innervated by the medial ALT projection neurons.The comparison of the olfactory system structures between M.separata and sympatric moths supports their evolutionary convergence in noctuid moths.These results collectively lay the foundation for future studies on olfactory processing in M.separata.展开更多
The morphology of antennal sensilla of both nymphs and adults in the cicada Meimuna mongolica (Distant) were studied. Four instars of M. mongolica (Distant) were preliminarily determined using Dyar's rule and a r...The morphology of antennal sensilla of both nymphs and adults in the cicada Meimuna mongolica (Distant) were studied. Four instars of M. mongolica (Distant) were preliminarily determined using Dyar's rule and a regression analysis of the head width of nymphs, combined with the comparative morphology of antennae of different stage nymphs and adults. The antennae of nymphs in different instars and adults show great morphological variations. The numbers, types and distribution of antennal sensilla in nymphs and adults of M. mongolica are significantly different, which should be closely related to the niche changes of the nymphs and adults, and provide implications for the development stages of this cicada.展开更多
Using scanning electron microscopy, we investigated the distribution of the trichoid, basiconic, and coeloconic sensilla on the antennae of the diamondback moth (DBM;Plutella xylostella). The trichoid sensilla were ...Using scanning electron microscopy, we investigated the distribution of the trichoid, basiconic, and coeloconic sensilla on the antennae of the diamondback moth (DBM;Plutella xylostella). The trichoid sensilla were the most abundant sensory organ, and the male moth antennae host signiifcantly more trichoid sensilla than female moth antennae. Conversely, basiconic and coeloconic sensilla were found more frequently on female than on male antennae. We performed experiments with various degrees of antennal ablation and demonstrated that DBM antennae played a key role in the control of mating and oviposition. We found that neither oviposition preference nor mating behaviors changed signiifcantly when less than 1/4 of both antennae were removed. However, there was a signiifcant behavioral change when the antennae were ablated by more than half. As the length of the antenna was shortened, the successful mating rate decreased and mating peak was delayed. An otherwise consistent host preference for oviposition was eliminated when both antennae were completely removed. Furthermore, we found that the number of trichoid sensilla was positively correlated with mating rate and oviposition preference. However, the numbers of basiconic and coeloconic sensilla were not correlated with mating rate and mating peak, but highly correlated with oviposition preference. Taken together, our results indicate that antennal sensory information plays a critical role in the mating and oviposition behaviors of this economically important pest.展开更多
The morphology and structures of antennal sensilla of Helicoverpa armigera are observed under scanning and transmission electron microscopes. Antennae of Helicoverpa armigera are made up of scapus, pedicel and flagell...The morphology and structures of antennal sensilla of Helicoverpa armigera are observed under scanning and transmission electron microscopes. Antennae of Helicoverpa armigera are made up of scapus, pedicel and flagellum that the latter consists of 70 - 82 segments. The inner side surface of antenna is cat-aphracted and most of the antennal sensilla lie on its outer, upper and lower surfaces. Both the antennae of male and female contain five kinds of antennal sensilla, namely, sensillum trichodeum, sensillum basicon-icum, sensillum chaeticum, ear-shaped sensillum and sensillum coeloconicum, and the kinds, number and distribution of antennal sensilla of both sexes are similar. There are a large number of serrate cuticular processes on antennal surface, especially on the middle and basic parts of antenna. Sensillum trichodeum and sensillum basiconicum, the main chemical odor receptors on antennae of Helicoverpa armigera, consist of cuticular-wall, sheath cells, lymph and dendrites. There are significant differences between the internal structures of the two kinds of sensilla. In sensillum trichodeum, the cuticular-wall is thicker, less lipophilic pore channels and has one or a few dendrites, while in sensillum basiconicum, the cuticular-wall is thinner, abundant lipophilic pore channels and has much more dendrites.展开更多
The structure of the primary olfactory brain center was studied in male and female adult Ambrostoma quadriimpressum by means of a series of histological sections labeled using the reduced-silver-stain technique.The an...The structure of the primary olfactory brain center was studied in male and female adult Ambrostoma quadriimpressum by means of a series of histological sections labeled using the reduced-silver-stain technique.The antennal lobe was elliptical,and the total number of glomeruli was approximately 50 in the antennal lobe in both sexes.There was no sexual dimorphism with respect to the size of the antennal lobe or the number and shape of glomeruli.展开更多
Camel crickets (Orthoptera: Rhaphidophoridae) are a group of wingless and humpbacked Orthopteran insects. They are closed relatives to katydids and crickets;they were called spider crickets somewhere because of their ...Camel crickets (Orthoptera: Rhaphidophoridae) are a group of wingless and humpbacked Orthopteran insects. They are closed relatives to katydids and crickets;they were called spider crickets somewhere because of their long legs. Camel cricket plays an important role in the food web in various ecosystems. In the forest ecosystem, they live in the ground level of forestry under litters and fallen leaves, and some of them live beneath the log and hid themselves under loosen tree barks. They feed on decomposing organic substances and serve as decomposers in the food chain. It is a very common insect prey to insectivorous animals in natural and artificial vegetation. Guandaushi (GDS) is the experimental forest station of National Chung Hsing University, as the study site of long term ecological research (LTER) in Taiwan. And the camel cricket became an important subject and a dominant insect group in the LTER studies. They are the major parts of the insect preys of vertebrates, especially to the insectivorous mammals. According to our previous publication, 32.2% of the insect preys of Mustela sibirica Pallas are camel crickets in GDS forest ecosystem. There were 5 morpho-species of camel crickets by the characters of antennal epicuticular characters. The camel cricket was collected from various ways according to the LTER study during 1995-1998. The morphology of antennal epicuticular structure from totally 60 individuals was observed by using SEM. The epicuticular sculpture was described and classified into Type I and Type II by the SEM photographs. Type I has 8 patterns and Type II has 5 patterns in this study. The illustration and the pictorial key were provided here as the tool for further application. The morpho-species could not be identified due to the remainder being fragmented while examined. After the study, the SEM antennal epicuticular structures were classified and identified based upon the antennae sample of the morphospecies from the specimens of the 5 camel crickets which were collected from GDS forest ecosystem in this study. This is a part of the fundamental study for the protocol of ecosystem study. The protocol for identifying the insectivorous animal’s prey by the insect fragment of food remainders is necessary. One more, there were 7 of the 13 patterns of antennal epicuticular structure applied to analysis the 5 morpho-species provided as the case study for taxonomy.展开更多
The Southern house mosquito Culex quinquefasciatus relies on its olfactory system to locate the human hosts for blood meals,by which several deadly diseases are transmitted.Olfactory sensory neurons(OSNs)housed in the...The Southern house mosquito Culex quinquefasciatus relies on its olfactory system to locate the human hosts for blood meals,by which several deadly diseases are transmitted.Olfactory sensory neurons(OSNs)housed in the sensilla on the olfactory appendages send their axons into the antennal lobes(ALs),the primary olfactory center in the brain,where the OSNs expressing the same olfactory receptors converge upon the same spherical structures known as glomeruli in the AL.The structure of the antennal lobe,that is,the spatial organization of the glomeruli,governs the insect's odor identification and discrimination.Drosophila studies have demonstrated the specific connections between receptors and glomeruli based on the 3D structure of the antennal lobe,deepening our understanding of the relationships between glomerular activities and behaviors,but as yet the structure of the Cx.quinquefasciatus antennal lobe remains unknown.We therefore constructed a 3D model of the Cx.quinquefasciatus antennal lobe using nc82 antibody staining,identifying 62 and 44 glomeruli in the female and male mosquito antennal lobe,respectively,with a significant sexual dimorphism in terms of the antennal lobe volume and glomerulus number.These results demonstrate the structural basis of mosquito odor coding and provide a platform for future studies of the mosquito olfactory signal processing mechanism.展开更多
The present paper deals with two new ethmid moths from China: Ethmia damaoshanae sp.nov. and Ethmia jingdongensis sp.nov. Another two species Ethmia dodecea (Haworth) and Ethmia ultima Sattler are reported for the f...The present paper deals with two new ethmid moths from China: Ethmia damaoshanae sp.nov. and Ethmia jingdongensis sp.nov. Another two species Ethmia dodecea (Haworth) and Ethmia ultima Sattler are reported for the first time from the country. The genitalia of the new species are figured.展开更多
Sex pheromones serve a critical role in Lepidopterans finding mates.Male moths perceive and react to sex pheromones emitted by conspecific females through a delicate pheromone communication system.Pheromone receptors(...Sex pheromones serve a critical role in Lepidopterans finding mates.Male moths perceive and react to sex pheromones emitted by conspecific females through a delicate pheromone communication system.Pheromone receptors(PRs)are the key sensory elements at the beginning of that process.The codling moth(Cydia ponwonella)is an important pome fruit pest globally and a serious invasive species in China.Pheromonebased techniques have been used successfully in monitoring and controlling this species.We conducted ribonucleic acid sequencing analysis of the codling moth antennal transcriptome and identified 66 odorant receptors(ORs)in a population from Xinjiang province,China,of which 14 were PRs,including two novel PRs(CpomOR2e and CpomOR73).Four PRs that contain full-length open reading frames(CpomORl,OR2a,OR5,OR7)and four PRs with ligands that have not been reported previously(CpomORl,OR2a,OR5,OR7)were selected to deorphanize in the heterologous Xenopus oocyte expression system.Specifically,we found that CpomOR2a and CpomOR5 responded to(£,£)-8,10-dodecadien-l-yl acetate(codlemone acetate).Furthermore,CpomOR5(EC50=1.379 x 10-8 mol/L)was much more sensitive to codlemone acetate than CpomOR2a(EC50=1.663×10^(-6) mol/L).Since codlemone acetate is an important component of C.pomonella sex pheromone,our results improve the current understanding of pheromone communication in codling moths and will be helpful for the development of pest management strategies.展开更多
The olfactory circuit of the fruit fly Drosophila melanogaster has emerged in recent years as an excellent paradigm for studying the principles and mechanisms of information processing in neuronal circuits. We discuss...The olfactory circuit of the fruit fly Drosophila melanogaster has emerged in recent years as an excellent paradigm for studying the principles and mechanisms of information processing in neuronal circuits. We discuss here the organizational principles of the olfactory circuit that make it an attractive model for experimental manipulations, the lessons that have been learned, and future challenges.展开更多
Pheromone receptors(PRs)are key proteins in the molecular mechanism of pheromone recognition,and exploring the functional differentiation of PRs between closely related species helps to understand the evolution of mot...Pheromone receptors(PRs)are key proteins in the molecular mechanism of pheromone recognition,and exploring the functional differentiation of PRs between closely related species helps to understand the evolution of moth mating systems.Pheromone components of the agricultural pest Mythimna loreyi have turned into(Z)-9-tetradecen-1-yl acetate(Z9-14:OAc),(Z)-7-dodecen-1-yl acetate(Z7-12:OAc),and(Z)-11-hexadecen-1-yl acetate,while the composition differs from that of M.separata in the genus Mythimna.To understand the molecular mechanism of pheromone recognition,we sequenced and analyzed antennal transcriptomes to identify 62 odorant receptor(OR)genes.The expression levels of all putative ORs were analyzed using differentially expressed gene analysis.Six candidate PRs were quantified and functionally characterized in the Xenopus oocytes system.MlorPR6 and MlorPR3 were determined to be the receptors of major and minor components Z9-14:OAc and Z7-12:OAc.MlorPR1 and female antennae(FA)-biased MlorPR5 both possessed the ability to detect pheromones of sympatric species,including(Z,E)-9,12-tetradecadien-1-ol,(Z)-9-tetradecen-1-ol,and(Z)-9-tetradecenal.Based on the comparison of PR functions between M.loreyi and M.separata,we analyzed the differentiation of pheromone recognition mechanisms during the evolution of the mating systems of 2 Mythimna species.展开更多
基金Supported by the Major Science and Technology Innovation Tackling Project of Wenzhou(No.ZF2022008)the Zhejiang Agricultural Science and Technology Cooperation Project(No.2024SNJF073)+3 种基金the Public Welfare Research Project of Ningbo(No.2023S114)the Earmarked Fund for CARS(No.CARS-48)the Youth Science and Technology Innovation Leading Talent Project of Ningbo City(No.2023QL038)K.C.Wong Magna Fund in Ningbo University。
文摘The mud crab(Scylla paramamosain)has been successfully cultivated in chloride-type low-salinity alkaline waters,yet the molecular mechanisms underlying its adaptation to this environment remain elusive.This study seeks to uncover the adaptation mechanisms of the antennal gland of mud crab under acute chloride-type low-salinity alkaline water stress.Three-hundred crabs were randomly selected and divided into two groups:the low salinity(LS,salinity of 2.2)group and the control group(CK,salinity of 23.4).Following a 120-h experimental period,the antennal glands were sampled for transcriptomic analysis.Experimental results show that acute chloride-type low-salinity saline-alkaline water stress led to a significant decline in the survivorship of mud crab.Through comparative transcriptomic analysis,we identified 923 differentially expressed genes(DEGs),among which 272 were upregulated and 651 were downregulated.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses revealed that the majority of these DEGs are closely linked to functions such as energy metabolism and osmoregulation.Notably,the pathways involving oxidoreductase activity,oxidative phosphorylation,symporter activity,and intracellular calcium-activated chloride channels were significantly enriched,highlighting their pivotal roles in enhancing the osmoregulatory capacity of mud crab and maintaining internal homeostasis in chloride-type low-salinity alkaline environments.Additionally,the upregulation of genes such as SLC6A9,SLC6A4,and FH further facilitated transmembrane ion transport and energy metabolism,thereby reinforcing intracellular isosmotic regulation.However,these controls also pose a potential risk of oxidative stress.Therefore,the antennal gland plays a crucial role in the response of mud crab to acute chloride-type low-salinity alkaline water stress.This study provides new insights into the adaptive mechanisms of mud crab and lays a theoretical foundation for enhancing chloride-type low-salinity alkaline water aquaculture techniques.
基金supported by the National Natural Science Foundation of China(32130089)the Norwegian Research Council(324379)。
文摘In insects,the number and specificity of antennal lobe glomeruli often reflect the number and diversity of expressed chemosensory genes,which are linked to its ecological niche and specific olfactory needs.The oriental armyworm,Mythimna separata,is an important and common lepidopteran pest of cereal crops.Given its reliance on the olfactory system for crucial behaviors,understanding the evolutionary potential of this system requires a thorough characterization of the anatomical structure of the primary olfactory center.Here,we systematically identified all antennal lobe glomeruli of M.separata based on synaptic antibody immunostaining and mass staining of the olfactory sensory neurons.A total of 69 glomeruli were identified in females and 65 in males,and an intuitive nomenclature based on glomerular positions was applied.Our findings uncovered some sex-specific glomeruli in this species.There were ten female-specific glomeruli and three male-specific glomeruli,except for the macroglomerular complex(MGC)units,with a notable observation that the female labial pit organ glomerulus was larger than its male counterpart.Additionally,we identified four antennal-lobe tracts(ALTs)and retrograde labeling from the calyx revealed that all glomeruli were innervated by the medial ALT projection neurons.The comparison of the olfactory system structures between M.separata and sympatric moths supports their evolutionary convergence in noctuid moths.These results collectively lay the foundation for future studies on olfactory processing in M.separata.
基金supported by the National Natural Science Foundation of China (31093430)the Program for New Century Excellent Talents in Universities of China (NCET-10-0691)
文摘The morphology of antennal sensilla of both nymphs and adults in the cicada Meimuna mongolica (Distant) were studied. Four instars of M. mongolica (Distant) were preliminarily determined using Dyar's rule and a regression analysis of the head width of nymphs, combined with the comparative morphology of antennae of different stage nymphs and adults. The antennae of nymphs in different instars and adults show great morphological variations. The numbers, types and distribution of antennal sensilla in nymphs and adults of M. mongolica are significantly different, which should be closely related to the niche changes of the nymphs and adults, and provide implications for the development stages of this cicada.
基金supported by the One Hundred Talents Program of Shanxi Province,China (201144)the Key Science and Technology Project of Shanxi Province,China (200903110300)
文摘Using scanning electron microscopy, we investigated the distribution of the trichoid, basiconic, and coeloconic sensilla on the antennae of the diamondback moth (DBM;Plutella xylostella). The trichoid sensilla were the most abundant sensory organ, and the male moth antennae host signiifcantly more trichoid sensilla than female moth antennae. Conversely, basiconic and coeloconic sensilla were found more frequently on female than on male antennae. We performed experiments with various degrees of antennal ablation and demonstrated that DBM antennae played a key role in the control of mating and oviposition. We found that neither oviposition preference nor mating behaviors changed signiifcantly when less than 1/4 of both antennae were removed. However, there was a signiifcant behavioral change when the antennae were ablated by more than half. As the length of the antenna was shortened, the successful mating rate decreased and mating peak was delayed. An otherwise consistent host preference for oviposition was eliminated when both antennae were completely removed. Furthermore, we found that the number of trichoid sensilla was positively correlated with mating rate and oviposition preference. However, the numbers of basiconic and coeloconic sensilla were not correlated with mating rate and mating peak, but highly correlated with oviposition preference. Taken together, our results indicate that antennal sensory information plays a critical role in the mating and oviposition behaviors of this economically important pest.
文摘The morphology and structures of antennal sensilla of Helicoverpa armigera are observed under scanning and transmission electron microscopes. Antennae of Helicoverpa armigera are made up of scapus, pedicel and flagellum that the latter consists of 70 - 82 segments. The inner side surface of antenna is cat-aphracted and most of the antennal sensilla lie on its outer, upper and lower surfaces. Both the antennae of male and female contain five kinds of antennal sensilla, namely, sensillum trichodeum, sensillum basicon-icum, sensillum chaeticum, ear-shaped sensillum and sensillum coeloconicum, and the kinds, number and distribution of antennal sensilla of both sexes are similar. There are a large number of serrate cuticular processes on antennal surface, especially on the middle and basic parts of antenna. Sensillum trichodeum and sensillum basiconicum, the main chemical odor receptors on antennae of Helicoverpa armigera, consist of cuticular-wall, sheath cells, lymph and dendrites. There are significant differences between the internal structures of the two kinds of sensilla. In sensillum trichodeum, the cuticular-wall is thicker, less lipophilic pore channels and has one or a few dendrites, while in sensillum basiconicum, the cuticular-wall is thinner, abundant lipophilic pore channels and has much more dendrites.
基金This research was supported by the Natural Science Foundation of China Heilongjiang(C2017059).
文摘The structure of the primary olfactory brain center was studied in male and female adult Ambrostoma quadriimpressum by means of a series of histological sections labeled using the reduced-silver-stain technique.The antennal lobe was elliptical,and the total number of glomeruli was approximately 50 in the antennal lobe in both sexes.There was no sexual dimorphism with respect to the size of the antennal lobe or the number and shape of glomeruli.
文摘Camel crickets (Orthoptera: Rhaphidophoridae) are a group of wingless and humpbacked Orthopteran insects. They are closed relatives to katydids and crickets;they were called spider crickets somewhere because of their long legs. Camel cricket plays an important role in the food web in various ecosystems. In the forest ecosystem, they live in the ground level of forestry under litters and fallen leaves, and some of them live beneath the log and hid themselves under loosen tree barks. They feed on decomposing organic substances and serve as decomposers in the food chain. It is a very common insect prey to insectivorous animals in natural and artificial vegetation. Guandaushi (GDS) is the experimental forest station of National Chung Hsing University, as the study site of long term ecological research (LTER) in Taiwan. And the camel cricket became an important subject and a dominant insect group in the LTER studies. They are the major parts of the insect preys of vertebrates, especially to the insectivorous mammals. According to our previous publication, 32.2% of the insect preys of Mustela sibirica Pallas are camel crickets in GDS forest ecosystem. There were 5 morpho-species of camel crickets by the characters of antennal epicuticular characters. The camel cricket was collected from various ways according to the LTER study during 1995-1998. The morphology of antennal epicuticular structure from totally 60 individuals was observed by using SEM. The epicuticular sculpture was described and classified into Type I and Type II by the SEM photographs. Type I has 8 patterns and Type II has 5 patterns in this study. The illustration and the pictorial key were provided here as the tool for further application. The morpho-species could not be identified due to the remainder being fragmented while examined. After the study, the SEM antennal epicuticular structures were classified and identified based upon the antennae sample of the morphospecies from the specimens of the 5 camel crickets which were collected from GDS forest ecosystem in this study. This is a part of the fundamental study for the protocol of ecosystem study. The protocol for identifying the insectivorous animal’s prey by the insect fragment of food remainders is necessary. One more, there were 7 of the 13 patterns of antennal epicuticular structure applied to analysis the 5 morpho-species provided as the case study for taxonomy.
基金an award from the Alabama Agricultural Experiment Station(AAES)Multistate/Hatch Grants ALA08-045,ALA015-1-10026,and ALA015-1-16009 to N.L.NL,ZY,and FL conceived and designed the study.ZY and FL performed the experiments.NL prepared the materials.NL,ZY,and FL wrote the main manuscript.All authors reviewed the manuscript.
文摘The Southern house mosquito Culex quinquefasciatus relies on its olfactory system to locate the human hosts for blood meals,by which several deadly diseases are transmitted.Olfactory sensory neurons(OSNs)housed in the sensilla on the olfactory appendages send their axons into the antennal lobes(ALs),the primary olfactory center in the brain,where the OSNs expressing the same olfactory receptors converge upon the same spherical structures known as glomeruli in the AL.The structure of the antennal lobe,that is,the spatial organization of the glomeruli,governs the insect's odor identification and discrimination.Drosophila studies have demonstrated the specific connections between receptors and glomeruli based on the 3D structure of the antennal lobe,deepening our understanding of the relationships between glomerular activities and behaviors,but as yet the structure of the Cx.quinquefasciatus antennal lobe remains unknown.We therefore constructed a 3D model of the Cx.quinquefasciatus antennal lobe using nc82 antibody staining,identifying 62 and 44 glomeruli in the female and male mosquito antennal lobe,respectively,with a significant sexual dimorphism in terms of the antennal lobe volume and glomerulus number.These results demonstrate the structural basis of mosquito odor coding and provide a platform for future studies of the mosquito olfactory signal processing mechanism.
文摘The present paper deals with two new ethmid moths from China: Ethmia damaoshanae sp.nov. and Ethmia jingdongensis sp.nov. Another two species Ethmia dodecea (Haworth) and Ethmia ultima Sattler are reported for the first time from the country. The genitalia of the new species are figured.
基金This work was supported by the National Natural Science Foundation of China(31672033)China postdoctoral science funding(2017M611069).We thank Mr.Song Cao,Mr.Yipeng Liu,Mr.Shuai Liu and Ms.Sai Zhang for help with the molecular biology experiments.
文摘Sex pheromones serve a critical role in Lepidopterans finding mates.Male moths perceive and react to sex pheromones emitted by conspecific females through a delicate pheromone communication system.Pheromone receptors(PRs)are the key sensory elements at the beginning of that process.The codling moth(Cydia ponwonella)is an important pome fruit pest globally and a serious invasive species in China.Pheromonebased techniques have been used successfully in monitoring and controlling this species.We conducted ribonucleic acid sequencing analysis of the codling moth antennal transcriptome and identified 66 odorant receptors(ORs)in a population from Xinjiang province,China,of which 14 were PRs,including two novel PRs(CpomOR2e and CpomOR73).Four PRs that contain full-length open reading frames(CpomORl,OR2a,OR5,OR7)and four PRs with ligands that have not been reported previously(CpomORl,OR2a,OR5,OR7)were selected to deorphanize in the heterologous Xenopus oocyte expression system.Specifically,we found that CpomOR2a and CpomOR5 responded to(£,£)-8,10-dodecadien-l-yl acetate(codlemone acetate).Furthermore,CpomOR5(EC50=1.379 x 10-8 mol/L)was much more sensitive to codlemone acetate than CpomOR2a(EC50=1.663×10^(-6) mol/L).Since codlemone acetate is an important component of C.pomonella sex pheromone,our results improve the current understanding of pheromone communication in codling moths and will be helpful for the development of pest management strategies.
基金L. Liang has been supported by a Stanford Graduate Fellow-ship and a Lubert Stryer Stanford Interdisciplinary Graduate Fellowship. L. Luo is an investigator at the Howard Hughes Medical InstituteOlfaction research in our lab has been supported by NIH grant R01-DC005982
文摘The olfactory circuit of the fruit fly Drosophila melanogaster has emerged in recent years as an excellent paradigm for studying the principles and mechanisms of information processing in neuronal circuits. We discuss here the organizational principles of the olfactory circuit that make it an attractive model for experimental manipulations, the lessons that have been learned, and future challenges.
基金This work was supported by National Natural Science Foundation of China(32130089,31725023,and 32072509)Shenzhen Science and Technology Program(KQTD20180411143628272)+1 种基金Projects subsidized by Special Funds for Science Technology Innovation and Industrial Development of Shenzhen Dapeng New District(PT202101-02)Agricultural Science and Technology Innovation Program(ASTIP).
文摘Pheromone receptors(PRs)are key proteins in the molecular mechanism of pheromone recognition,and exploring the functional differentiation of PRs between closely related species helps to understand the evolution of moth mating systems.Pheromone components of the agricultural pest Mythimna loreyi have turned into(Z)-9-tetradecen-1-yl acetate(Z9-14:OAc),(Z)-7-dodecen-1-yl acetate(Z7-12:OAc),and(Z)-11-hexadecen-1-yl acetate,while the composition differs from that of M.separata in the genus Mythimna.To understand the molecular mechanism of pheromone recognition,we sequenced and analyzed antennal transcriptomes to identify 62 odorant receptor(OR)genes.The expression levels of all putative ORs were analyzed using differentially expressed gene analysis.Six candidate PRs were quantified and functionally characterized in the Xenopus oocytes system.MlorPR6 and MlorPR3 were determined to be the receptors of major and minor components Z9-14:OAc and Z7-12:OAc.MlorPR1 and female antennae(FA)-biased MlorPR5 both possessed the ability to detect pheromones of sympatric species,including(Z,E)-9,12-tetradecadien-1-ol,(Z)-9-tetradecen-1-ol,and(Z)-9-tetradecenal.Based on the comparison of PR functions between M.loreyi and M.separata,we analyzed the differentiation of pheromone recognition mechanisms during the evolution of the mating systems of 2 Mythimna species.
