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机译:肠微生物在感染的沙子叮咬期间,通过炎症组衍生的IL-1β开始增强Leishmaniaisis的严重程度
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
US FDA Lab Emerging Pathogens Div Emerging &
Transfus Transmitted Dis Ctr Biol Evaluat &
Res Silver Spring MD 20993 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
NIAID Vector Mol Biol Sect Lab Malaria &
Vector Res NIH Rockville MD 20852 USA;
机译:肠微生物在感染的沙子的叮咬期间,通过炎症源性IL-1β燃烧的严重程度增强了Leishmaniaisis的严重程度
机译:预防因未感染沙蝇叮咬而引起的皮肤利什曼病
机译:从受感染的沙蝇中反流的利什曼原虫蛋白磷酸聚糖通过胰岛素样生长因子1依赖性信号传导促进皮肤伤口修复并加剧利什曼原虫病
机译:感染沙蝇叮咬期间消化的肠道微生物通过炎症小体衍生的IL-1β增强利什曼病的严重程度
机译:在Pemphigus耐受耐受性中屏蔽了咬咬伤。
机译:沙蝇唾液蛋白疫苗显示非人灵长类动物对载体传播的皮肤利什曼病的功效。