ライフサイエンスコーパス: biological warfare

1 potential for pathogenicity and belowground biological warfare.

2 h as anthropogenic climate change or nuclear/biological warfare.

3 haracterized as a category A Select Agent of biological warfare.

4 sitive bacillus that is a powerful agent for biological warfare.

5 irus a potential weapon for bioterrorism and biological warfare.

6 disease but also serve as countermeasures to biological warfare.

7 ions in biotechnology opens new pathways for biological warfare.

8 anthrax, botulinum toxin, and aflatoxin for biological warfare; 200 bombs and 25 ballistic missiles

9 ostridium botulinum, Vaccinia virus, and one biological warfare agent (BWA) simulant, Bacillus thurin

10 ation as diagnostic reagents for a potential biological warfare agent and hold promise as scaffolds f

11 ffer a real time and label free detection of biological warfare agent and provide an opportunity to m

12 environmental monitoring and to chemical and biological warfare agent detection.

13 genetic analysis, environmental testing, and biological warfare agent detection.

14 s considered as a life-threatening potential biological warfare agent due to its high virulence, tran

15 es for detection and characterization of the biological warfare agent, B. anthracis, the causative ag

16 phylococcal enterotoxin B (SEB), a potential biological warfare agent, is a potent superantigen that

17 , it has been recently considered a possible biological warfare agent.

18 potential global health threat and possible biological warfare agent.

19 Ricin is a plant toxin used as a poison and biological warfare agent; shiga toxin is a homologue exp

20 recognize the symptoms of diseases caused by biological warfare agents and have Critical Incident Str

21 cific mechanism may link vaccination against biological warfare agents and later ill health, but the

22 or the ultrasensitive detection of different biological warfare agents and their markers in different

23 detection, protection and treatment so that biological warfare agents are never used.

24 The threat of terrorists using biological warfare agents has received increased attenti

25 ultaneous detection of multiple simulants of biological warfare agents have been developed.

26 a novel detection scheme for the analysis of biological warfare agents is demonstrated using Bacillus

27 ortable instrumentation to accurately detect biological warfare agents such as B. anthracis, emergenc

28 We provide here a primer on 10 classic biological warfare agents to increase the likelihood of

29 pplications that range from the detection of biological warfare agents to pharmaceutical screening.

30 ent of the risk that is posed by microbes as biological warfare agents using the basic principles of

31 ntial for standoff detection of chemical and biological warfare agents, avoiding contamination to the

32 Titration curves for two biological warfare agents, Bacillus anthracis and Yersin

33 ecific quantification of the three potential biological warfare agents, ricin, staphylococcal enterot

34 d to quickly and accurately detect potential biological warfare agents, such as Bacillus anthracis, c

35 ve, and reliable identification of potential biological warfare agents.

36 tularemia, is one of the deadliest agents of biological warfare and bioterrorism.

37 Vaccination against biological warfare and multiple routine vaccinations wer

38 isease Control and Prevention as a potential biological warfare and terrorism agent.

39 The threat of biological warfare and the emergence of new infectious a

40 is, biological weapon, biological terrorism, biological warfare, and biowarfare.

41 weapon, biological terrorism, bioterrorism, biological warfare, and biowarfare.

42 is, biological weapon, biological terrorism, biological warfare, and biowarfare.

43 is, biological weapon, biological terrorism, biological warfare, and biowarfare.

44 if used during the Persian Gulf War, Iraq's biological warfare arsenal probably would have been mili

45 In October 2001, the first disseminated biological warfare attack was perpetrated on American so

46 ions designed to deter Iraq from reacquiring biological warfare capability and must take steps to dev

47 threat posed by the release of chemical and biological warfare (CBW) agents, detection of airborne p

48 agnostics and drug screening to chemical and biological warfare detection, inexpensive, rapid-readout

49 d environmental factors, such as chemical or biological warfare exposure, were considered.

50 Biological warfare has been renounced by 140 nations, pr

51 Biological warfare has evolved from the crude use of cad

52 tive bacteria Yersinia pestis as an agent of biological warfare have highlighted the need for a safe,

53 relating to bioterrorism, biological agents, biological warfare, hospital preparedness, disaster mana

54 The history of biological warfare is difficult to assess because of a n

55 he potential use of Y. pestis as an agent of biological warfare mean that plague still poses a threat

56 interest in clinical medicine as well as in biological warfare or terrorism incidents.

57 is not a modern reincarnation of the Soviet biological warfare program.

58 e enhancement and proliferation of offensive biological warfare programs.

59 easures, and intelligence gathering, a major biological warfare terrorist attack can be prevented, th

60 With the threat of biological warfare, the U.S.

61 Despite the Gulf War defeat, the Iraqi biological warfare threat has not been extinguished.

62 Although its toxicity makes BoNT/A a biological warfare threat, its biologic activity makes i