The mosquito Anopheles stephensi limits malaria parasite development with inducible synthesis of nitric oxide.
about
A possible mechanism for the suppression of Plasmodium berghei development in the mosquito Anopheles gambiae by the microsporidian Vavraia culicisDynamic gut microbiome across life history of the malaria mosquito Anopheles gambiae in KenyaDo malaria ookinete surface proteins P25 and P28 mediate parasite entry into mosquito midgut epithelial cells?Ambivalent Outcomes of Cell Apoptosis: A Barrier or Blessing in Malaria ProgressionThe remarkable journey of adaptation of the Plasmodium falciparum malaria parasite to New World anopheline mosquitoesPlasmodium falciparum evades mosquito immunity by disrupting JNK-mediated apoptosis of invaded midgut cellsMAPK ERK signaling regulates the TGF-beta1-dependent mosquito response to Plasmodium falciparumParasite killing in malaria non-vector mosquito Anopheles culicifacies species B: implication of nitric oxide synthase upregulationGlycoinositolphospholipids from Trypanosomatids subvert nitric oxide production in Rhodnius prolixus salivary glandsHuman IGF1 regulates midgut oxidative stress and epithelial homeostasis to balance lifespan and Plasmodium falciparum resistance in Anopheles stephensiEcological influences on the behaviour and fertility of malaria parasitesMolecular characterization of a prophenoloxidase cDNA from the malaria mosquito Anopheles stephensi.Genes identified by an expression screen of the vector mosquito Anopheles gambiae display differential molecular immune response to malaria parasites and bacteria.Analysis of the Plasmodium and Anopheles transcriptional repertoire during ookinete development and midgut invasion.Differential gene expression in abdomens of the malaria vector mosquito, Anopheles gambiae, after sugar feeding, blood feeding and Plasmodium berghei infectionAnopheles gambiae immune responses to human and rodent Plasmodium parasite species.Spatial and sex-specific dissection of the Anopheles gambiae midgut transcriptomeRodent malaria-resistant strains of the mosquito, Anopheles gambiae, have slower population growth than -susceptible strains.The components of the Daphnia pulex immune system as revealed by complete genome sequencingAnopheles aquasalis Infected by Plasmodium vivax displays unique gene expression profiles when compared to other malaria vectors and plasmodia.Plasmodium infection alters Anopheles gambiae detoxification gene expression.Insights from the genome annotation of Elizabethkingia anophelis from the malaria vector Anopheles gambiae.Protein S-nitrosylation in Plasmodium falciparum.Low linkage disequilibrium in wild Anopheles gambiae s.l. populations.The role of reactive oxygen species on Plasmodium melanotic encapsulation in Anopheles gambiae.Induction of nitric oxide synthase in Anopheles stephensi by Plasmodium falciparum: mechanism of signaling and the role of parasite glycosylphosphatidylinositols.Malaria immunity in man and mosquito: insights into unsolved mysteries of a deadly infectious disease.Sex and death: the effects of innate immune factors on the sexual reproduction of malaria parasites.Genetics of mosquito vector competence.Malaria infection of the mosquito Anopheles gambiae activates immune-responsive genes during critical transition stages of the parasite life cycle.Midgut epithelial responses of different mosquito-Plasmodium combinations: the actin cone zipper repair mechanism in Aedes aegypti.Ambient temperature and dietary supplementation interact to shape mosquito vector competence for malariaTsetse immune responses and trypanosome transmission: implications for the development of tsetse-based strategies to reduce trypanosomiasisThe immunomodulatory factors of bloodfeeding arthropod saliva.The JAK-STAT pathway controls Plasmodium vivax load in early stages of Anopheles aquasalis infection.Challenges and approaches for mosquito targeted malaria control.The mitogen-activated protein kinome from Anopheles gambiae: identification, phylogeny and functional characterization of the ERK, JNK and p38 MAP kinases.Rethinking vector immunology: the role of environmental temperature in shaping resistanceGlutathione reductase-null malaria parasites have normal blood stage growth but arrest during development in the mosquitoDesign and activity of antimicrobial peptides against sporogonic-stage parasites causing murine malarias.
P2860
Q21092140-03B7DA7B-0BFE-43F8-8127-5511C7A28A3FQ21560921-4B33AEBA-B4A8-41E1-A6E1-D5C178ED0A98Q24805493-2615B54C-4C6C-4069-A539-B8B967358CBAQ26751066-E097C686-D738-4B5A-ACF7-B951A137BC8FQ27024912-09AB5CD3-7BE5-4D21-BB7F-F268009FB481Q27973785-8A2A4AD7-55DF-428A-92A3-686C85DFB3D1Q28475123-0EFBD6EF-52CB-4D28-B26F-DD76FE99875DQ28477637-14536840-A962-4A7D-84CB-66DCE814EBFDQ28484388-A2067BF3-4829-4787-B9F2-22A018D78AADQ28540107-F63164FA-904C-433C-BF27-37E89CF826C5Q28834579-1A0727C9-15B5-4A5D-B37B-1427966E111FQ30857338-A08B63BA-6599-4E84-B801-2A828420AA9DQ30929275-AB5F3DE4-C70F-4CDD-A6C3-23C904D85B12Q31027398-4C2B3239-0CC6-4243-A4D9-4F82C2B335FEQ33244108-71E67C6B-2F2F-43A2-8B4A-5A8A829F0BBEQ33247464-36C4F220-0EE6-46E8-92C6-DA20E4521974Q33270764-67D71BDA-9ABF-4159-B35E-0B3C3A1EF0C1Q33432337-F73442D2-5621-4C14-AFAC-330B29E58D44Q33433694-D7A7E3E9-BDCB-46F5-AF71-F668C1766772Q33546377-69AD56E7-59ED-4FB4-A23A-D39EFBE9A79DQ33581366-EE98F3D5-0C78-4812-8F2D-52CBA2EBCE61Q33632690-E2D34512-3FDE-4ED8-88EE-86DE0D7329EEQ33687880-76F9BA64-3CCE-4528-B86E-76037A0D2F13Q33693208-AC5B7601-DFCA-462F-AC16-65AC672385DCQ33715530-76078CF7-453D-4645-BD20-8FCCBCCE1CEBQ33769102-CAB4CAD2-D178-48C4-9E6C-C4E2211A2F53Q33821137-40567B56-05A4-40BD-9954-6F9D44C88526Q33847933-FD62C87D-EBCB-4DC0-8AB1-F1B9C7F52047Q33855250-3AE756D4-EFB9-499E-AB57-5A4537ED13DAQ33889757-A82BB776-EAE3-47F7-A0A4-4EF97069C8FEQ33932575-C569BDA8-72A3-469B-AC4F-075D1EAC5A61Q33934504-61C3369F-C288-4005-B942-6D1DC19F8DAFQ33947968-1A6E90F7-B3EC-47D8-9F01-073C201754CAQ33962295-1C9D6A45-999E-4DCC-96D6-9FCAE873DCADQ34070612-5E5F2B74-437B-4488-907F-BB79D46A6A8DQ34077952-007A2A9C-B043-4DEC-954C-04B731AE7EBFQ34082049-A999A218-10FD-4D2A-A65C-1956157B34C9Q34082102-F40C29F4-C093-4130-91A4-4C56E3055A08Q34094450-54AA2679-9E70-419C-A75C-E00D6401C799Q34110334-7E4FC03D-DE7E-45B1-B376-F8AB47F33E74
P2860
The mosquito Anopheles stephensi limits malaria parasite development with inducible synthesis of nitric oxide.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@ast
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@en
type
label
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@ast
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@en
prefLabel
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@ast
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@en
P2093
P2860
P356
P1476
The mosquito Anopheles stephen ...... ble synthesis of nitric oxide.
@en
P2093
P2860
P304
P356
10.1073/PNAS.95.10.5700
P407
P577
1998-05-01T00:00:00Z