1 ity, we isolated a mutant poliovirus that is
heat resistant.
2 sequence identity, however, it is much less
heat-resistant.
3 ical for the refolding of the protein; and a
heat-resistant A.niger phytase may be achieved by mutati
4 that HeLa cell nuclear extract is rich in a
heat-resistant activity that dramatically enhances appar
5 tester-specific fragments, including a novel
heat-resistant agglutinin (hra) gene fragment.
6 We report that EAEC 042 carries the
heat-resistant agglutinin (hra1) gene, also known as hek
7 Heat-resistant agglutinin 1 (Hra1) is an accessory colon
8 olibactin polyketide synthesis system), hra (
heat-resistant agglutinin), and vat (vacuolating toxin)
9 The protein is extremely stable,
heat-resistant and highly expressed in bacteria, and all
10 We demonstrate here that a water-soluble,
heat-resistant and nonproteinaceous F. oxysporum cell wa
11 of computational design in producing a more
heat-resistant and potentially more palatable brazzein v
12 that it is secreted into the supernatant, is
heat resistant,
and is between 3 and 10 kDa.
13 Finally, we failed to recover
heat-resistant colony-forming units from frogs chronical
14 spores by light microscopy or by testing for
heat-resistant colony-forming units in aged cultures of
15 ation and highlighting its role as a stable,
heat-resistant component of soil organic matter in Medit
16 Naturally
heat-resistant coral populations hold significant potent
17 In an oil reservoir context,
heat-resistant endospore-forming sulfate-reducing bacter
18 e I reaction center) and Clostridia (forming
heat-resistant endospores).
19 merous members that are capable of producing
heat-resistant endospores.
20 In this work, a novel
heat-resistant energetic compound, 2,5-bis(3,5-dinitro-1
21 The pursuit of
heat-resistant energetic materials featuring high thermo
22 The ever-increasing demand for
heat-resistant energetic materials in deep mining and sp
23 foundation for the creation of the advanced
heat-resistant energetic materials of the future.
24 DR) from inexpensive starting materials as a
heat-resistant energetic materials.
25 onal properties, 5 outperforms the benchmark
heat-resistant explosive hexanitrostilbene (HNS).
26 -energy substances exceeds that of the known
heat-resistant explosive hexanitrostilbene.
27 nd 334 degrees C), surpassing presently used
heat-resistant explosive HNS (318 degrees C).
28 combination for replacing current benchmark
heat-resistant explosive HNS.
29 S = 7.5 J) compared to the industrially used
heat-resistant explosive, HNS.
30 em suitable candidates for high-performance,
heat-resistant explosives.
31 Proteins found to become
heat-resistant following DNA exposure were named "Tetz-p
32 Interestingly, plasma proteins that become
heat-resistant following treatment with bacterial eDNA a
33 pidly and irreversibly transformed to an SDS/
heat-resistant form, in a process requiring an acidic co
34 In this work, a set of new
heat-resistant high-energy materials incorporating the p
35 Thus, sodium dodecyl sulfate- and
heat-resistant high-molecular-mass pIV is derived from p
36 Even though the mutant virus is
heat resistant,
it is susceptible to inactivation by tre
37 organic fraction is found to be a stable and
heat-resistant material in nature if soil temperatures r
38 Heat-resistant mutants selected from infectious subvirio
39 onsist of semi-crystalline polymers, whereby
heat-resistant,
nanocrystalline beta-sheets embedded wit
40 ority of these proteins were not known to be
heat-resistant nor do they possess any prion-like domain
41 TMX31 aggregated into small
heat-resistant oligomers composed of two to five subunit
42 compared to SF portray a new era in required
heat resistant packaging.
43 Shigella boydii was the most
heat resistant pathogen tested (D(10) of 42.8 s at 65 de
44 Whereas SM101 formed
heat-resistant,
phase-refractile spores, spore formation
45 luorescence protein gene tagging methods and
heat resistant polymerases used in the polymerase chain
46 e PA oligomer from "pre-pore" to its SDS and
heat-resistant "
pore" conformation while not preventing
47 sma proteins, leading to an elevation of the
heat-resistant protein fraction, as well as to de novo a
48 Therefore, we analyzed the
heat-resistant proteome in the plasma of healthy subject
49 ls for quantitation of total viable cell and
heat-resistant spore counts on taurocholate-containing m
50 tiation of vegetative Bacillus subtilis into
heat resistant spores is initiated by the activation of
51 porulation, ultimately forming 50-fold fewer
heat-resistant spores than the wild type.
52 (ii) All seven isolates produce highly
heat-resistant spores with D(100) values (the time that
53 vegetative cells, in the ability to produce
heat-resistant spores, or in the ability to trigger spor
54 body differentiate from rods into spherical,
heat-resistant spores, whereas the cells outside the agg
55 ely bypasses the need for SpoIIID to produce
heat-resistant spores.
56 mosomal cpe gene that also produce extremely
heat-resistant spores.
57 es imposes a small cost on the production of
heat-resistant spores.
58 tion which is essential for the formation of
heat-resistant spores.
59 e wild-type strain, but is unable to produce
heat-resistant spores.
60 by sigma-H, and a delay in the production of
heat-resistant spores.
61 complementation group of Sindbis virus (SIN)
heat-resistant strain, ts RNA-negative mutants.
62 utations (mu1 M258I and sigma3 S344P) within
heat-resistant strains.
63 st that recently released varieties are less
heat resistant than older varieties, a pattern that also
64 phenol oxidase (PPO) in all samples was more
heat resistant than peroxidase (POD).
65 ptation strategy involves the development of
heat resistant varieties by breeders, combined with alte
66 of type 1 PV can be stabilized by selecting
heat-resistant viruses.
67 eat sensitive when in supE or supF hosts and
heat resistant when in Sup degrees hosts.
68 Red Sea corals are exceptionally
heat-resistant,
yet bleaching events have increased in f