1.
Cloning and transcriptional analysis of two sialic acid-binding le..
[1549]
|
2.
Identification of a LPS-induced TNF-alpha factor (LITAF) from moll..
[1364]
|
3.
A four-domain Kunitz-type proteinase inhibitor from Solen grandis ..
[1121]
|
4.
A sigma-class glutathione S-transferase from Solen grandis that re..
[1067]
|
5.
Identification and transcriptional analysis of two types of lectin..
[975]
|
6.
Molecular cloning and mRNA expression of two peptidoglycan recogni..
[968]
|
7.
An integrative biomarker approach to assess the environmental stre..
[880]
|
8.
CO2-induced ocean acidification impairs the immune function of the..
[767]
|
9.
An integrative biomarker approach to assess the environmental stre..
[689]
|
10.
Molecular diversity and evolution of defensins in the manila clam ..
[684]
|
11.
A defensin-like antimicrobial peptide from the manila clam Ruditap..
[648]
|
12.
A defensin from clam Venerupis philippinarum: Molecular characteri..
[609]
|
13.
胞外陷阱的免疫学研究现状及展望
[588]
|
14.
Mitochondria are essential for antibacterial extracellular trap fo..
[524]
|
15.
Individual and Combined Toxicities of Benzo[a]pyrene and 2,2',4,4'..
[519]
|
16.
The role of GST omega in metabolism and detoxification of arsenic ..
[519]
|
17.
菲律宾蛤仔免疫效应因子的多样性和免疫功能研究
[512]
|
18.
Seawater acidification increases copper toxicity: A multi-biomarke..
[509]
|
19.
14-3-3 zeta and 14-3-3 epsilon are involved in innate immune respo..
[505]
|
20.
Molecular characterization, expression and antimicrobial activitie..
[498]
|
21.
Molecular characterization, expression and functional analysis of ..
[493]
|
22.
Molecular characterization and antibacterial activity of a phage-t..
[491]
|
23.
Seawater acidification aggravated cadmium toxicity in the oyster C..
[474]
|
24.
Molecular cloning and characterization of FADD from the manila cla..
[448]
|
25.
A peptidoglycan recognition protein involved in immune recognition..
[440]
|
26.
The impact of ocean acidification and cadmium on the immune respon..
[438]
|
27.
A bactericidal permeability-increasing protein (BPI) from manila c..
[430]
|
28.
Antibacterial activities and mechanisms of action of a defensin fr..
[428]
|
29.
Antimicrobial Defensin and DNA Traps in Manila Clam Ruditapes phil..
[415]
|
30.
Hemocyte extracellular traps of Manila clam Ruditapes philippinaru..
[414]
|
31.
A macin identified from Venerupis philippinarum: Investigation on ..
[406]
|
32.
Mannan oligosaccharide increases the growth performance, immunity ..
[394]
|
33.
Individual and Combined Toxicities of Benzo[a]pyrene and 2,2',4,4'..
[392]
|
34.
对虾生长不同阶段虾塘水体细菌和古菌的动态特征
[392]
|
35.
Scavenger receptor class B type I (SR-BI) in Ruditapes philippinar..
[383]
|
36.
Tissue distribution and functional characterization of mytimacin-4..
[382]
|
37.
Antibacterial activity and mechanism of a type-I ubiquitin from th..
[375]
|
38.
A sialic acid-binding lectin with bactericidal and opsonic activit..
[370]
|
39.
Molecular characterization, expression and immune functions of two..
[362]
|
40.
Cd~(2+)和Pb~(2+)单一与复合污染对脊尾白虾的急性毒性效应研究
[361]
|
41.
Integrative Biomarker Assessment of the Influence of Saxitoxin on ..
[356]
|
42.
Two macrophage migration inhibitory factors (MIFs) from the clam R..
[329]
|
43.
Seawater Acidification Reduced the Resistance of Crassostrea gigas..
[323]
|
44.
Peptidoglycan recognition protein of Solen grandis (SgPGRP-S1) med..
[321]
|
45.
Two c-type lectins from Venerupis philippinarum: Possible roles in..
[319]
|
46.
Immune recognition, antimicrobial and opsonic activities mediated ..
[311]
|
47.
A fas apoptotic inhibitory molecule from Ruditapes philippinarum: ..
[279]
|
48.
Effects of the potential probiotic Bacillus subtilis D1-2 on growt..
[265]
|
49.
Interactive effects of multiple antibiotic residues and ocean acid..
[255]
|
50.
对虾生长不同阶段虾塘水体细菌和古菌的动态特征
[252]
|
51.
Characteristic and antibacterial effect of a histone H2A and its p..
[251]
|
52.
Intestinal microbiota perturbations in the gastropod Trochus nilot..
[224]
|
53.
Identification, antibacterial activities and action mode of two ma..
[223]
|
54.
Intrinsic and extrinsic pathways of apoptosis induced by multiple ..
[196]
|
55.
Effects of exposure to nanoplastics on the gill of mussels Myti..
[195]
|
56.
In vitro study of deltamethrin-induced extracellular traps in hemo..
[142]
|
57.
联苯菊酯对皱纹盘鲍血细胞胞外陷阱形成的影响
[60]
|
58.
植物乳杆菌(LPHMX-3)对仿刺参生长、消化、免疫和肠道菌群的影响
[56]
|
59.
皱纹盘鲍肽聚糖识别蛋白在免疫防御中的作用
[50]
|
60.
皱纹盘鲍稚鲍对海水酸化与溴氰菊酯复合胁迫的响应
[37]
|
61.
一种促进贝类幼虫附着变态菌株及应用
[28]
|
62.
一种贝类血细胞胞外陷阱的诱导方法及其应用
[28]
|
63.
一株能够高效去除水体中有机质的菌株及其应用
[22]
|
64.
枸杞酒发酵残渣综合利用可行性研究
[22]
|
65.
一种靶向抗菌基因、多肽、重组蛋白及其制备方法和应用
[21]
|
66.
一种抗真菌基因、多肽、重组蛋白及其制备方法和应用
[21]
|
67.
一株能够高效去除水体中无机磷的菌株及其应用
[20]
|
68.
一种对虾益生菌及应用
[18]
|
69.
一种用于预防细菌性疾病的菌株及应用
[12]
|
70.
Cd(2+)和Pb(2+)单一与复合污染对脊尾白虾的急性毒性效应研究
[6]
|