ライフサイエンスコーパス: rod-shaped

1 sembled flagella, part of the mutant cell is rod shaped.

2 morphology, mutant cells were nonmotile and rod shaped.

3 e particles, HIV-1 Gag protein molecules are rod shaped.

4 globular, while that with magnesium ions was rod-shaped.

5 phase, the bacteria were found to be classic rod-shaped acid-fast bacilli, while in the stationary ph

6 tide/DNA particle was an irregular and not a rod-shaped aggregate when imaged by atomic force microsc

7 Rod-shaped aggregates ("rods"), containing equimolar act

8 nas gingivalis, a non-motile, Gram-negative, rod-shaped, anaerobic bacterium.

9 Although mycobacteria are rod shaped and divide by simple binary fission, their ce

10 All are rod shaped and monomeric in solution.

11 aB mutant that lacks periplasmic flagella is rod shaped and unable to infect mice by needle or tick b

12 Both the MCC and NCC particles were rod-shaped and had higher crystallinity degrees than had

13 a, as many biofilm-forming bacteria that are rod-shaped and motile on soft surfaces exhibit polymertr

14 on and at the side-wall during elongation in rod-shaped and ovococcoid Gram-positive bacteria.

15 eproduces the observed MinCD oscillations in rod-shaped and round E. coli, we predict that the oscill

16 itional models that complement the classical rod-shaped and symmetrically dividing systems.

17 B. burgdorferi flgE mutants lacked PFs, were rod shaped, and were nonmotile, which substantiates prev

18 standard medium, Escherichia coli cells are rod-shaped, and maintain a constant diameter during expo

19 Eukaryotic chromosomes reach their stable rod-shaped appearance in mitosis in a reaction dependent

20 gA mutant lost the characteristic Salmonella rod-shaped appearance, exhibited increased sensitivity t

21 crystal structure reveals an unusual locked rod-shaped array.

22 Rod shaped as well as spherical structures resembling La

23 ponent, cofilin, are found together in large rod-shaped assemblies in neurons subjected to energy str

24 (SANS) revealed a concentration-independent rod-shaped assembly at concentrations below and above th

25 The structure reveals a rod-shaped assembly that has no known precedence among k

26 ted work includes catalysis by spherical and rod-shaped Au(25) (with different ligands), quasi-isomer

27 ingle Ag or Cu atom into a centrally hollow, rod-shaped Au24 nanoparticle, forming AgAu24 and CuAu24

28 of ultrasmall spherical Au25(SC2H4Ph)18 and rod-shaped Au25(PPh3)10(C identical withCPh)5X2 (X = Br,

29 rotonated -C identical withCPh as ligands on rod-shaped Au25(PPh3)10(C identical withCPh)5X2 nanoclus

30 ngle-helical assemblies comprising oblong or rod-shaped AuNPs.

31 In rod-shaped bacilli, helical cables of actin-like MreB pr

32 in punctate patterns along the long axis of rod-shaped bacilli, similar to the localization of lipid

33 am-positive bacteria and is not essential in rod-shaped Bacillus subtilis, where it plays a role in s

34 of coiled bundles of glycan strands, in the rod-shaped Bacillus subtilis.

35 nd electron microscopy showed densely packed rod shaped bacteria.

36 uses a geometry-specific defect in engulfing rod-shaped bacteria and ellipsoidal beads.

37 molog required for the morphogenesis of most rod-shaped bacteria and for other functions, including c

38 Rod-shaped bacteria are modelled as groups of spherical

39 d size across time for the adder strategy in rod-shaped bacteria cells.

40 Division site selection in rod-shaped bacteria depends on nucleoid occlusion, which

41 aled a new cofactor that may help a group of rod-shaped bacteria elongate and grow.

42 Rod-shaped bacteria elongate by the action of cell wall

43 The actin homolog MreB is required in rod-shaped bacteria for maintenance of cell shape and is

44 Rod-shaped bacteria grow by a repetitive cycle of elonga

45 Rod-shaped bacteria grow by adding material into their c

46 For instance, straight-rod-shaped bacteria grow curved when confined to circula

47 Growth and cell division in rod-shaped bacteria have been primarily studied in speci

48 Rod-shaped bacteria have two distinct modes of cell wall

49 Rod-shaped bacteria have two SEDS-bPBP pairs, involved i

50 fully predict upstream twitching motility of rod-shaped bacteria in shear flows.

51 Growth of rod-shaped bacteria is a well-studied example requiring

52 The cell morphology of rod-shaped bacteria is determined by the rigid net of pe

53 Elongation of rod-shaped bacteria is mediated by a dynamic peptidoglyc

54 hase-separated occlusive compartments around rod-shaped bacteria leading to increased bacterial survi

55 The depletion of MreCD in rod-shaped bacteria leads to the formation of spherical

56 Taken together, these data suggest that rod-shaped bacteria like M. xanthus use bactofilin fibre

57 Various rod-shaped bacteria mysteriously glide on surfaces in th

58 Elongation of many rod-shaped bacteria occurs by peptidoglycan synthesis at

59 e discover that directional proliferation of rod-shaped bacteria plays a dominant role in shaping the

60 It turns out that E. coli and some other rod-shaped bacteria select their cell midpoint using suc

61 Rod-shaped bacteria such as Escherichia coli accurately

62 Cell division in typical rod-shaped bacteria such as Escherichia coli shows a rem

63 olipid cardiolipin localizes to the poles of rod-shaped bacteria suggests that targeting of some prot

64 Recent studies in rod-shaped bacteria support the "incremental rule" where

65 Rod-shaped bacteria that divide by binary fission, such

66 Rod-shaped bacteria typically elongate at a uniform widt

67 In rod-shaped bacteria, cell morphology is correlated with

68 In most rod-shaped bacteria, DNA replication is quickly followed

69 While in most rod-shaped bacteria, morphology is based on MreB-like pr

70 In rod-shaped bacteria, proteins involved in diverse and im

71 aling relation in Escherichia coli and other rod-shaped bacteria, resulting from the preservation of

72 In rod-shaped bacteria, septal peptidoglycan synthesis invo

73 inanimate colloidal rods were used to mimic rod-shaped bacteria, suggesting that shape and size comp

74 In many rod-shaped bacteria, the actin homolog MreB directs cell

75 In rod-shaped bacteria, the anionic phospholipid cardiolipi

76 Similarly to rod-shaped bacteria, we show that mreCD are essential in

77 underlying length and width determination in rod-shaped bacteria.

78 l insertion and chiral cell-wall ordering in rod-shaped bacteria.

79 y, chemotaxis, and chromosome segregation in rod-shaped bacteria.

80 Many proteins reside at the cell poles in rod-shaped bacteria.

81 MreB, are required to maintain the shape of rod-shaped bacteria.

82 hromosome segregation with septum closure in rod-shaped bacteria.

83 otein ParM to segregate low-copy plasmids in rod-shaped bacteria.

84 into a new model of cell wall biogenesis in rod-shaped bacteria.

85 rotein distribution across the short axis of rod-shaped bacteria.

86 illuminated a remarkable growth mechanism of rod-shaped bacteria: proteins associated with cell wall

87 Rod-shaped bacterial cells can readily adapt their lengt

88 to study the self-organization of nonmotile rod-shaped bacterial cells growing on a solid substrate

89 xtended helices surrounding the cytoplasm of rod-shaped bacterial cells.

90 We demonstrate that the rod-shaped bacterium Agrobacterium tumefaciens grows uni

91 sed by the gram-positive, endospore-forming, rod-shaped bacterium Bacillus anthracis.

92 netic basis for the L-form transition in the rod-shaped bacterium Bacillus subtilis and thus how to g

93 In the rod-shaped bacterium Bacillus subtilis, cell wall elonga

94 Cells of Flavobacterium johnsoniae, a rod-shaped bacterium devoid of pili or flagella, glide o

95 ed chirality of the MreB cytoskeleton in the rod-shaped bacterium Escherichia coli gives rise to a gl

96 ibacillus polymyxa OSY-DF is a Gram-positive rod-shaped bacterium isolated from a fermented vegetable

97 They have twice as many genes as a typical rod-shaped bacterium like Escherichia coli or Bacillus s

98 The rod-shaped bacterium Myxococcus xanthus moves on surface

99 lla quintana is a fastidious, gram-negative, rod-shaped bacterium that causes prolonged bacteremia in

100 Flavobacterium johnsoniae, a rod-shaped bacterium, glides over surfaces at speeds of

101 d in Escherichia coli, another Gram-negative rod-shaped bacterium, suggesting that KaiC localization

102 All rod-shaped C. jejuni Tn mutants and all rod-shaped labor

103 ties of postnatal myocardium, including: (1) rod-shaped cardiomyocytes with M bands assembled as a fu

104 In rod-shaped cartilage structures (Meckel, ribs and skelet

105 otility organelles, helical flagella, to its rod-shaped cell body, producing a striking flat-wave mor

106 nct subcellular positions of stalks within a rod-shaped cell body: polar in the genus Caulobacter and

107 and directed motion to opposite poles of the rod-shaped cell during segregation.

108 PG) synthesis in the cylindrical part of the rod-shaped cell is governed by the redundant action of t

109 how that the ability to generate a classical rod-shaped cell is restored, conclusively rejecting temp

110 fission yeast Schizosaccharomyces pombe is a rod-shaped cell that exhibits polarized cell growth at c

111 fission yeast Schizosaccharomyces pombe is a rod-shaped cell that grows by linear extension at the ce

112 n of the irregular plate-shaped cells into a rod-shaped cell type that was essential for normal swimm

113 ircumferentially around the long axis of the rod-shaped cell, an arrangement similar to the single la

114 ng adjacent to the septum on each end of the rod-shaped cell.

115 ith an accuracy comparable to that of normal rod-shaped cells (about 4%).

116 tions in a community of growing and dividing rod-shaped cells (i.e., bacilli).

117 and (ii) it is distributed asymmetrically in rod-shaped cells and is concentrated at the poles and di

118 Within the swarm, the individual rod-shaped cells are constantly moving, transiently inte

119 When the rod-shaped cells are converted into spheres (protoplasts

120 We show that when wild-type rod-shaped cells are physically forced to grow in a bent

121 on centers and form fruiting bodies in which rod-shaped cells differentiate into ovoid spores.

122 Rod-shaped cells move into mounds in which some cells di

123 The rod-shaped cells of Myxococcus xanthus, a Gram-negative

124 The periodic reversal of interacting rod-shaped cells promotes their alignment.

125 In rod-shaped cells such as Escherichia coli, it typically

126 Fission yeast Schizosaccharomyces pombe are rod-shaped cells that grow by tip extension and then div

127 fission yeast Schizosaccharomyces pombe are rod-shaped cells that grow to approximately 14 microm in

128 biophysical model for the growth dynamics of rod-shaped cells to investigate the roles of spatial reg

129 g of the division apparatus by orienting the rod-shaped cells vertically using microfabricated wells.

130 n that overlapped the distribution of normal rod-shaped cells were collected by FACS and reincubated.

131 At 24 h poststarvation, some rod-shaped cells were committed to subsequent shape chan

132 Short-range C-signaling between rod-shaped cells within mounds induces gene expression t

133 Bacillus anthracis grows in chains of rod-shaped cells, a trait that contributes to its escape

134 In these rod-shaped cells, an exogenous EF reorients cell growth

135 Slightly more complex are rod-shaped cells, from microscopic bacteria to macroscop

136 In Schizosaccharomyces pombe rod-shaped cells, Pom1 kinase forms gradients with maxim

137 gnificantly altered from those of the normal rod-shaped cells.

138 require MreD, which determines morphology in rod-shaped cells.

139 l enable high-throughput studies of aging in rod-shaped cells.

140 oskeletal filaments such as FtsZ and MreB in rod-shaped cells.

141 eins are localized primarily to the poles of rod-shaped cells.

142 rows in characteristic chains of individual, rod-shaped cells.

143 d confine septation to the centers of normal rod-shaped cells.

144 to move sister plasmids to opposite poles of rod-shaped cells.

145 tidoglycan synthesis in the lateral walls of rod-shaped cells.

146 oriented in Epulopiscium than in most small rod-shaped cells.

147 tructure of typical/FGS-chaperone assembled, rod-shaped, chaperone/usher pili, little is known about

148 strategy, we synthesized and characterized a rod-shaped, charge-neutral, diplatinum-doped Ag nanoclus

149 uperatomic architectures that are built from rod-shaped Co(12)Se(16)(PEt(3))(10) and C(140) nanoclust

150 These proteins contain the rod-shaped collagenous domain proximal to cell surface,

151 ius and molecular conformation (e.g., round, rod-shaped, compact or relaxed).

152 In the case of rod-shaped Cpl hydrogenase crystals, only five crystals

153 antibiotic, accumulates and precipitates as rod-shaped, crystal-like drug inclusions within macropha

154 duce a model human IgG clone started housing rod-shaped crystals in the endoplasmic reticulum (ER) lu

155 The dark-red rod-shaped crystals of 2 were synthesized by reduction o

156 Macroscopic rod-shaped crystals show various photomechanical effects

157 isplay at least 5 times higher activity than rod-shaped crystals, which clearly suggests that the pol

158 this 358-kD protein is folded into a compact rod-shaped density (20 x 4 nm) with a loop structure at

159 spots, not stripes, which then elongate into rod-shaped digit rays by incorporating new cells at thei

160 NS1(172-352) assembles as a unique rod-shaped dimer composed of a 16-stranded beta-platform

161 Rod-shaped dimers of tropomyosin regulate actin-myosin i

162 A new generation of rod-shaped dipolar molecular rotors designed for control

163 hed a spherical protein (streptavidin) and a rod-shaped DNA (47bp) to a quartz crystal microbalance (

164 a polymerization process in which CCL5 forms rod-shaped, double-helical oligomers.

165 cess and human MIP-1alpha and MIP-1beta form rod-shaped, double-helical polymers.

166 g inclusions inside macrophages, turning the rod-shaped drug inclusions into intracellular microblend

167 y controllable hydrodynamic force to growing rod-shaped Escherichia coli and Bacillus subtilis cells,

168 ototypical cell morphologies such as that of rod-shaped Escherichia coli, little is known about most

169 In rod-shaped Escherichia coli, two conserved sets of machi

170 s ballooned outward but retained conspicuous rod-shaped extensions at sites representing the original

171 omonas caviae is a Gram-negative, motile and rod-shaped facultative anaerobe that is increasingly bei

172 e fiber formation and co-assemble into short rod-shaped fibers with its full-length Abeta counterpart

173 Rod-shaped fission yeast cells divide at a threshold siz

174 Rod-shaped fission yeast cells grow in a highly polarize

175 how these properties regulate growth in the rod-shaped fission yeast Schizosaccaromyces pombe, we de

176 s problem by interfering with scaling in the rod-shaped fission yeast Schizosaccharomyces japonicus t

177 In rod-shaped fission yeast Schizosaccharomyces pombe cells

178 For example, rod-shaped fission yeast Schizosaccharomyces pombe cells

179 In the rod-shaped fission yeast Schizosaccharomyces pombe, micr

180 In the rod-shaped fission yeast Schizosaccharomyces pombe, symm

181 chromosomes reorganise into highly compact, rod-shaped forms, thought to consist of consecutive chro

182 mpacted in length by more than 100-fold into rod-shaped forms.

183 NAs against Kras, a key oncogene driver, and rod-shaped gold nanoparticles mediated the conversion of

184 , which consists of oriented hard-phase SmCo rod-shaped grains and soft-phase Fe(Co) equiaxed grains

185 n architecture and dynamics during growth in rod-shaped Gram-negative bacteria.

186 For the rod-shaped Gram-negative bacterium Escherichia coli, cha

187 peptidoglycan damage and perturbation in the rod-shaped Gram-negative bacterium Escherichia coli.

188 gate the regulation of wall thickness in the rod-shaped Gram-positive bacterium Bacillus subtilis, we

189 he cell-wall synthesis machinery to regulate rod-shaped growth and contribute to cellular stiffness t

190 ructure with the cellular-scale phenomena of rod-shaped growth.

191 Septins form rod-shaped hetero-oligomeric complexes that assemble int

192 n proteins bind guanine nucleotides and form rod-shaped hetero-oligomers.

193 calculations indicate that the complex is a rod-shaped heterodimer.

194 Septin-family proteins assemble into rod-shaped heteromeric complexes that form higher-order

195 hese proteins polymerize into filaments from rod-shaped heteromeric septin complexes.

196 Rod-shaped, highly-compacted CK30PEG10k/DNA with PEG coa

197 The rod-shaped hydroxyapatite nanoparticles were incorporate

198 lastomer body into which three freeze-dried, rod-shaped, hydroxypropylmethylcellulose inserts were in

199 find that most atrial cardiomyocytes become rod-shaped in the second week of life, generating a sing

200 ular cofilin pool prior to its assembly into rod-shaped inclusions.

201 All rod-shaped C. jejuni Tn mutants and all rod-shaped laboratory, clinical and environmental C. jej

202 Two rod-shaped macroanions, ((C4H9)4N)7[Mo6O18NC(OCH2)3XMo6O

203 ion imaging of virus-infected cells revealed rod-shaped MAVS clusters on mitochondria.

204 re five low-energy polymer morphologies on a rod-shaped membrane: rings, lines, helices, loops, and p

205 and Hsp70 negative, activated "polarized" or rod-shaped microglia were located outside of the microin

206 Rod-shaped microglia were present in the S1BF and had a

207 en nanometric dendrimer-like ligands and the rod-shaped micrometric bacteria.

208 in conditions affecting cell diameter in the rod-shaped model fission yeast.

209 In order to achieve this, a new class of rod-shaped molecular switches, suitable for formation of

210 The rod-shaped molecule is composed primarily of 11 immunogl

211 ased on a conventional tetracatenar motif (a rod-shaped molecule with two side chains at each end) ha

212 eferential end-for-end polar ordering of the rod shaped molecules can reduce the surface energy of mu

213 These rod-shaped molecules carrying an axial rotator are desig

214 t the cells recovered their straight, native rod-shaped morphologies when released from captivity at

215 Mature hiPSC-CMs showed rod-shaped morphology, highly organized sarcomeres, elev

216 e coculture, typically exhibited a ramified, rod-shaped morphology.

217 Flavobacterium columnare is a Gram-negative, rod-shaped, motile, and highly prevalent fish pathogen c

218 Rod-shaped mutants appeared unable to colonize intestina

219 Normal rod-shaped myocyte morphology acutely transitioned to a

220 Upon starvation, a dense population of rod-shaped Myxococcus xanthus bacteria coordinate their

221 Rod-shaped Myxococcus xanthus cells are polarized with p

222 In the rod-shaped Myxococcus xanthus cells, T4P localize at the

223 reactivity and dissolution of spherical and rod shaped nanoparticles.

224 ynthetic microvascular networks) showed that rod-shaped nanoparticles exhibit higher specific and low

225 sults demonstrated higher cellular uptake of rod-shaped nanoparticles in the co-culture compared to s

226 easure the deposition rates of spherical and rod-shaped nanoparticles to the collector (poly-l-lysine

227 ined that the primary difference between the rod-shaped, nonpathogenic mutants and the helix-shaped,

228 ection with a bacilliform virus containing a rod shaped nucleocapsid enveloped in an elliptical membr

229 ignal intensity across the short axis of any rod-shaped object.

230 ate unprecedented control and maneuvering of rod-shaped or tubular nanostructures with high aspect ra

231 Chlorosomes, rod-shaped organelles with relatively long-range molecul

232 ell tips driving the linear extension of the rod-shaped organism to maintain a straight long axis.

233 ision genes identified in the historic model rod-shaped organisms.

234 -Phenylene tetramers have been combined with rod-shaped p-phenylene-, tolane-, and diphenylbutadiyene

235 eter) produced a Th1-biased response whereas rod-shaped particles (1530 nm in length) produced a Th2-

236 The rod-shaped particles (200-400 nm long and 100-200 nm in

237 The elongated rod-shaped particles demonstrated greater binding abilit

238 wski-Levich approximation indicated that the rod-shaped particles largely counterbalance the attracti

239 iameters were successfully stretched to form rod-shaped particles of 376 nm and 1530 nm in length, re

240 e transitions also vary with particle shape: rod-shaped particles show a partially reversible phase t

241 al particles, and the attachment rate of the rod-shaped particles showed an increasing trend with the

242 gnificantly more attachment was observed for rod-shaped particles than spherical particles, and the a

243 Increased attachment rate of rod-shaped particles was attributed to surface heterogen

244 Rod-shaped particles were found to be less sensitive to

245 Rod-shaped particles yield aerogels with polymeric morph

246 anisotropic particles, such as dimerized or rod-shaped particles, can travel linearly without a trac

247 er deposition rate compared with that of the rod-shaped particles.

248 of CdSe aerogels prepared from spherical and rod-shaped particles.

249 rucial to the viability of several important rod-shaped pathogens including Bacillus anthracis, Liste

250 suggest that the assembly process to form a rod-shaped phage is a delicate balance to maintain pVIII

251 owth method is reported for the synthesis of rod-shaped plasmon nanostructures which are vertically s

252 lular distribution and function of PS in the rod-shaped, polarized fission yeast.

253 sfully grown in a limited space of preformed rod-shaped polymer nanocapsules, thereby avoiding the co

254 ersibly forms a polydisperse distribution of rod-shaped polymers in solution.

255 es a 220 KDa protein that is predicted to be rod-shaped protein harbouring a beta-helix structural mo

256 otein C (MyBP-C) is an approximately 130-kDa rod-shaped protein of the thick (myosin containing) fila

257 Talin is a large flexible rod-shaped protein that activates the integrin family of

258 Autophagy-related 2 (ATG2), the rod-shaped protein that tethers phosphatidylinositol 3-p

259 ntenance of chromosome 1 (Smc1) and Smc3 are rod-shaped proteins with 50-nm long intra-molecular coil

260 three core subunits: Smc1 and Smc3, two long-rod-shaped proteins with an ABC-like ATPase head (nucleo

261 C to change fundamental behaviors of motile, rod-shaped Proteus mirabilis cells (3 mum in length) ads

262 Rod-shaped ribonucleoprotein complexes are arranged into

263 beads-on-a-string topology in which the long rod-shaped Rtt103 dimers define the topological and mobi

264 Vascular endothelial cells contain unique rod-shaped secretory organelles, called Weibel-Palade bo

265 aling between moving cells in order that the rod-shaped self-propelled cells differentiate into spore

266 pure solutions follow the trend expected for rod-shaped silver clusters, consistent with the polarize

267 binding site is located in the middle of the rod-shaped Soc, with the N and C termini facing the 2- a

268 se study describes the colony formation of a rod-shaped species on a planar substratum.

269 Their rod-shaped structure includes a large extracellular loop

270 ow that full-length BLV Gag has an elongated rod-shaped structure that is relatively rigid, with the

271 intrinsically disordered, with an elongated rod-shaped structure that preferentially binds double-st

272 analyses showed that the ability to induce a rod-shaped structure was not required for viral replicat

273 a-COP(CTD) x epsilon-COP heterodimer forms a rod-shaped structure, in which epsilon-COP adopts a tetr

274 The size of the rod shaped structures varied from 0.39 to 0.67 microm in

275 and showed that the ability of gI to induce rod-shaped structures correlated well with the capabilit

276 und that gI could self-interact and that the rod-shaped structures failed to recognize glycoprotein E

277 opy of these p33/p55 complexes reveals small rod-shaped structures that can convert to oligomeric flo

278 cells, the HSV-1 gI was discovered to induce rod-shaped structures that were uniform in width but var

279 a] 110 to 202) both failed to stain the long rod-shaped structures, suggesting the formation of a hig

280 perty of this molecule, namely, induction of rod-shaped structures, which appeared to represent a hig

281 The exocyst consists of eight rod-shaped subunits that align in a side-by-side manner

282 We were able to obtain discrete rod-shaped TMV@MOF core-shell hybrids with good uniformi

283 es enolase-bound degradosomes to switch from rod-shaped to filamentous form in response to anaerobios

284 essary complex cellular differentiation from rod-shaped vegetative cells into spherical spores is unk

285 rly boiling acid: Saccharolobus solfataricus rod-shaped virus 1 (SSRV1), at 2.8- angstrom resolution,

286 ns between proteins of Sulfolobus islandicus rod-shaped virus 2 (SIRV2) and the host-encoded prolifer

287 edral virus (STIV) and Sulfolobus islandicus rod-shaped virus 2 (SIRV2) produce unusual pyramid-like

288 ) and ORF436 (gp18) of Sulfolobus islandicus rod-shaped virus 2 (SIRV2), both encoding proteins of un

289 od-shaped virus SIRV2 (Sulfolobus islandicus rod-shaped virus 2) infects the hyperthermophilic acidop

290 both in isolation and bound to S. islandicus rod-shaped virus 3 AcrID1 reveal that the anti-CRISPR pr

291 The rod-shaped virus APBV1 (Aeropyrum pernix bacilliform vir

292 The nonenveloped, rod-shaped virus SIRV2 (Sulfolobus islandicus rod-shaped

293 ly with single DNA molecules to finally form rod-shaped virus-like particles.

294 s well as a panel of unrelated S. islandicus rod-shaped viruses (SIRVs).

295 around single-stranded genomic DNA or RNA in rod-shaped viruses, the lengthy double-stranded genome o

296 Recent evidence suggests that many rod-shaped, walled cells achieve elongated growth throug

297 ar how these spherical spores germinate into rod-shaped, walled cells without preexisting PG template

298 les with two different shapes, spherical and rod-shaped, were compared.

299 cative aging in Schizosaccharomyces pombe, a rod-shaped yeast that divides by binary fission and shar

300 Rod-shaped ZnSe nanocrystals (nanorods, NRs) with a Ni(B