Type IV Pili of Streptococcus sanguinis Contribute to Pathogenesis in Experimental Infective Endocarditis

This work provides evidence that type IV pili produced by Streptococcus sanguinis SK36 are critical to the ability of these bacteria to attach to and colonize the aortic heart valve (endocarditis). We found that an S. sanguinis type IV pili mutant strain was defective in causing platelet-dependent aggregation in a 24-h infection assay but not in a 1-h platelet aggregation assay, suggesting that the type IV pili act at later stages of vegetation development.

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Molecular and Functional Analysis of the Type IV Pilus Gene Cluster inStreptococcus sanguinisSK36

Applied and Environmental Microbiology ◽

10.1128/aem.02788-18 ◽

2019 ◽

Vol 85 (6) ◽

Cited By ~ 5

Author(s):

Yi-Ywan M. Chen ◽

Yi-Chien Chiang ◽

Tzu-Ying Tseng ◽

Hui-Yu Wu ◽

Yueh-Ying Chen ◽

...

Keyword(s):

Surface Structure ◽

Gene Cluster ◽

Type Iv Pili ◽

Oral Microbiome ◽

Host Cells ◽

Dependent Manner ◽

Content Type ◽

Streptococcus Sanguinis ◽

Dental Biofilm ◽

Type Iv

ABSTRACTStreptococcus sanguinis, dominant in the oral microbiome, is the only known streptococcal species possessing apilgene cluster for the biosynthesis of type IV pili (Tfp). Although this cluster is commonly present in the genome ofS. sanguinis, most of the strains do not express Tfp-mediated twitching motility. Thus, this study was designed to investigate the biological functions encoded by the cluster in the twitching-negative strainS. sanguinisSK36. We found that the cluster was transcribed as an operon, with three promoters located 5′ to the cluster and one in the intergenic region between SSA_2307 and SSA_2305. Studies using promoter-catfusion strains revealed that the transcription of the cluster was mainly driven by the distal 5′ promoter, which is located more than 800 bases 5′ to the first gene of the cluster, SSA_2318. Optimal expression of the cluster occurred at the early stationary growth phase in a CcpA-dependent manner, although a CcpA-binding consensus is absent in the promoter region. Expression of the cluster resulted in a short hairlike surface structure under transmission electron microscopy. Deletion of the putative pilin genes (SSA_2313 to SSA_2315) abolished the biosynthesis of this structure and significantly reduced the adherence of SK36 to HeLa and SCC-4 cells. Mutations in thepilgenes downregulated biofilm formation byS. sanguinisSK36. Taken together, the results demonstrate that Tfp of SK36 are important for host cell adherence, but not for motility, and that expression of thepilcluster is subject to complex regulation.IMPORTANCEThe proteins and assembly machinery of the type IV pili (Tfp) are conserved throughout bacteria and archaea, and yet the function of this surface structure differs from species to species and even from strain to strain. As seen inStreptococcus sanguinisSK36, the expression of the Tfp gene cluster results in a hairlike surface structure that is much shorter than the typical Tfp. This pilus is essential for the adherence of SK36 but is not involved in motility. Being a member of the highly diverse dental biofilm, perhapsS. sanguiniscould more effectively utilize this structure to adhere to host cells and to interact with other microbes within the same niche.

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ROLE OF NITRIC OXIDE (NO) IN CAPSAICIN MEDIATED ANTI-PLATELET ACTIVITY IN IN VITRO, IN VIVO, EX-VIVO MODEL OF PLATELET AGGREGATION ASSAY AND ARTERIAL THROMBOSIS IN RAT: POTENTIAL THERAPEUTIC TARGET?

International Journal of Pharmacy and Pharmaceutical Sciences ◽

10.22159/ijpps.2018v10i4.22474 ◽

2018 ◽

Vol 10 (4) ◽

pp. 44

Author(s):

Mihir K Patel ◽

Kiranj K. Chaudagar ◽

Anita A. Mehta

Keyword(s):

Platelet Aggregation ◽

Arterial Thrombosis ◽

Ex Vivo ◽

Platelet Activity ◽

Aggregation Assay ◽

Thrombosis Model ◽

Platelet Aggregation Assay

Objective: Although recent advances in the treatment of congestive heart disease, mortality among patients’ remains a questionable remark. Therefore, we evaluated the role of capsaicin on in vitro and ex vivo platelet aggregation induced by Adenosine Di-Phosphate (ADP) as well as in in vivo thrombosis models and role of NO, KATP was also identified in the capsaicin-induced anti-platelet animal model as well as in vivo model of arterial thrombosis.Methods: According to body weight wistar rats were divided into five groups. Group I and Group II was treated with saline and capsaicin (3 mg/kg, i. v), while animals from Group III were treated with N(ω)-nitro-L-arginine methyl ester (L-NAME) (30 mg/kg, i. v) 30 min before administration of capsaicin (3 mg/kg, i. v). Group IV animals were treated with glibenclamide (10 mg/kg,i. v) 30 min before administration of capsaicin (3 mg/kg, i. v). Group V was considered as a positive control and administered clopidogrel (30 mg/kg, p. o). Animals were subjected for in vitro, ex-vivo platelet aggregation assay. ADP (30µM) was utilized as an aggregating agent in these experiments. After these assays; animals of each group were subjected for subaqueous tail bleeding time in a rat model and FeCl3-induced arterial thrombosis model in rats.Results: In ADP-induced in vitro platelet aggregation, a significant reduction in % platelet aggregation was observed at 50µM (64.35±4.641) and 100µM (52.72±4.192) concentration of capsaicin as compared to vehicle control (85.82±3.716). Capsaicin (3 mg/kg, i. v) also showed a significant reduction (49.53±4.075) in ex-vivo ADP-induced platelet aggregation as compared to vehicle control (89.38±2.057). In FeCl3 induced arterial thrombosis model, Capsaicin (3 mg/kg, i. v) exhibited an increase in time to occlusion in this rodent model and presence of the L-NAME and glibenclamide had inhibited the activity of capsaicin.Conclusion: In our study, capsaicin (50 µM, 100µM) exhibited potent anti-platelet activity in ADP-induced platelet aggregation, similarly capsaicin exhibited significant anti-platelet action in the ex-vivo study. Moreover, the presence of L-NAME and glibenclamide inhibited the anti-thrombotic and anti-platelet action of capsaicin. Therefore, it was concluded that NO and KATP may be involved in the anti-thrombotic action of capsaicin.

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Molecular and Physical Factors That Influence Attachment of Vibrio vulnificus to Chitin

Applied and Environmental Microbiology ◽

10.1128/aem.00753-15 ◽

2015 ◽

Vol 81 (18) ◽

pp. 6158-6165 ◽

Cited By ~ 13

Author(s):

Tiffany C. Williams ◽

Mesrop Ayrapetyan ◽

James D. Oliver

Keyword(s):

Quorum Sensing ◽

Vibrio Vulnificus ◽

The United States ◽

Type Iv Pili ◽

Negative Regulator ◽

Physical Factors ◽

Wound Infections ◽

Environmental Persistence ◽

Content Type ◽

Type Iv

ABSTRACTThe human pathogenVibrio vulnificusis the leading cause of seafood-related deaths in the United States. Strains are genotyped on the basis of alleles that correlate with isolation source, with clinical (C)-genotype strains being more often implicated in disease and environmental (E)-genotype strains being more frequently isolated from oysters and estuarine waters. Previously, we have shown that the ecologically distinct C- and E-genotype strains ofV. vulnificusdisplay different degrees of chitin attachment, with C-genotype strains exhibiting reduced attachment relative to their E-genotype strain counterparts. We identified type IV pili to be part of the molecular basis for this observed genotypic variance, as E-genotype strains exhibit higher levels of expression of these genes than C-genotype strains. Here, we used a C-genotype quorum-sensing (QS) mutant to demonstrate that quorum sensing is a negative regulator of type IV pilus expression, which results in decreased chitin attachment. Furthermore, calcium depletion reduced E-genotype strain attachment to chitin, which suggests that calcium is necessary for proper functioning of the type IV pili in E-genotype strains. We also found that starvation or dormancy can alter the efficiency of chitin attachment, which has significant implications for the environmental persistence ofV. vulnificus. With the increasing incidence of wound infections caused byV. vulnificus, we investigated a subset of E-genotype strains isolated from human wound infections and discovered that they attached to chitin in a manner more similar to that of C-genotype strains. This study enhances our understanding of the molecular and physical factors that mediate chitin attachment inV. vulnificus, providing insight into the mechanisms that facilitate the persistence of this pathogen in its native environment.

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Role ofCaulobacterCell Surface Structures in Colonization of the Air-Liquid Interface

Journal of Bacteriology ◽

10.1128/jb.00064-19 ◽

2019 ◽

Vol 201 (18) ◽

Author(s):

Aretha Fiebig

Keyword(s):

Cell Surface ◽

Caulobacter Crescentus ◽

Three Dimensional ◽

Liquid Interface ◽

Type Iv Pili ◽

Surface Structures ◽

Aquatic Environments ◽

Content Type ◽

Type Iv ◽

Air Liquid Interface

ABSTRACTIn aquatic environments,Caulobacterspp. can be found at the boundary between liquid and air known as the neuston. I report an approach to study temporal features ofCaulobacter crescentuscolonization and pellicle biofilm development at the air-liquid interface and have defined the role of cell surface structures in this process. At this interface,C. crescentusinitially forms a monolayer of cells bearing a surface adhesin known as the holdfast. When excised from the liquid surface, this monolayer strongly adheres to glass. The monolayer subsequently develops into a three-dimensional structure that is highly enriched in clusters of stalked cells known as rosettes. As this pellicle film matures, it becomes more cohesive and less adherent to a glass surface. A mutant strain lacking a flagellum does not efficiently reach the surface, and strains lacking type IV pili exhibit defects in organization of the three-dimensional pellicle. Strains unable to synthesize the holdfast fail to accumulate at the boundary between air and liquid and do not form a pellicle. Phase-contrast images support a model whereby the holdfast functions to trapC. crescentuscells at the air-liquid boundary. Unlike the holdfast, neither the flagellum nor type IV pili are required forC. crescentusto partition to the air-liquid interface. While it is well established that the holdfast enables adherence to solid surfaces, this study provides evidence that the holdfast has physicochemical properties that allow partitioning of nonmotile mother cells to the air-liquid interface and facilitate colonization of this microenvironment.IMPORTANCEIn aquatic environments, the boundary at the air interface is often highly enriched with nutrients and oxygen. Colonization of this niche likely confers a significant fitness advantage in many cases. This study provides evidence that the cell surface adhesin known as a holdfast enablesCaulobacter crescentusto partition to and colonize the air-liquid interface. Additional surface structures, including the flagellum and type IV pili, are important determinants of colonization and biofilm formation at this boundary. Considering that holdfast-like adhesins are broadly conserved inCaulobacterspp. and other members of the diverse classAlphaproteobacteria, these surface structures may function broadly to facilitate colonization of air-liquid boundaries in a range of ecological contexts, including freshwater, marine, and soil ecosystems.

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Assay of embryo-derived platelet activating factor (EDPAF) by an equine platelet aggregation assay: Preliminary data concerning its presence in bovine embryo culture media

Theriogenology ◽

10.1016/0093-691x(92)90038-s ◽

1992 ◽

Vol 38 (4) ◽

pp. 757-768 ◽

Cited By ~ 2

Author(s):

A.E. Stock ◽

W. Hansel

Keyword(s):

Platelet Aggregation ◽

Embryo Culture ◽

Preliminary Data ◽

Culture Media ◽

Platelet Activating Factor ◽

Bovine Embryo ◽

Aggregation Assay ◽

Platelet Aggregation Assay

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Cyclic Di-GMP Binding by an Assembly ATPase (PilB2) and Control of Type IV Pilin Polymerization in the Gram-Positive Pathogen Clostridium perfringens

Journal of Bacteriology ◽

10.1128/jb.00034-17 ◽

2017 ◽

Vol 199 (10) ◽

Cited By ~ 17

Author(s):

William A. Hendrick ◽

Mona W. Orr ◽

Samantha R. Murray ◽

Vincent T. Lee ◽

Stephen B. Melville

Keyword(s):

Clostridium Perfringens ◽

Biochemical Characterization ◽

Core Protein ◽

Type Iv Pili ◽

Host Cells ◽

Dependent Manner ◽

Gram Positive ◽

Content Type ◽

Type Iv

ABSTRACT The Gram-positive pathogen Clostridium perfringens possesses type IV pili (TFP), which are extracellular fibers that are polymerized from a pool of pilin monomers in the cytoplasmic membrane. Two proteins that are essential for pilus functions are an assembly ATPase (PilB) and an inner membrane core protein (PilC). Two homologues each of PilB and PilC are present in C. perfringens, called PilB1/PilB2 and PilC1/PilC2, respectively, along with four pilin proteins, PilA1 to PilA4. The gene encoding PilA2, which is considered the major pilin based on previous studies, is immediately downstream of the pilB2 and pilC2 genes. Purified PilB2 had ATPase activity, bound zinc, formed hexamers even in the absence of ATP, and bound the second messenger molecule cyclic di-GMP (c-di-GMP). Circular dichroism spectroscopy of purified PilC2 indicated that it retained its predicted degree of alpha-helical secondary structure. Even though no direct interactions between PilB2 and PilC2 could be detected in vivo or in vitro even in the presence of c-di-GMP, high levels of expression of a diguanylate cyclase from C. perfringens (CPE1788) stimulated polymerization of PilA2 in a PilB2- and PilC2-dependent manner. These results suggest that PilB2 activity is controlled by c-di-GMP levels in vivo but that PilB2-PilC2 interactions are either transitory or of low affinity, in contrast to results reported previously from in vivo studies of the PilB1/PilC1 pair in which PilC1 was needed for polar localization of PilB1. This is the first biochemical characterization of a c-di-GMP-dependent assembly ATPase from a Gram-positive bacterium. IMPORTANCE Type IV pili (TFP) are protein fibers involved in important bacterial functions, including motility, adherence to surfaces and host cells, and natural transformation. All clostridia whose genomes have been sequenced show evidence of the presence of TFP. The genetically tractable species Clostridium perfringens was used to study proteins involved in polymerizing the pilin, PilA2, into a pilus. The assembly ATPase PilB2 and its cognate membrane protein partner, PilC2, were purified. PilB2 bound the intracellular signal molecule c-di-GMP. Increased levels of intracellular c-di-GMP led to increased polymerization of PilA2, indicating that Gram-positive bacteria use this molecule to regulate pilus synthesis. These findings provide valuable information for understanding how pathogenic clostridia regulate TFP to cause human diseases.

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The Swarming Motility of Pseudomonas aeruginosa Is Blocked by Cranberry Proanthocyanidins and Other Tannin-Containing Materials

Applied and Environmental Microbiology ◽

10.1128/aem.02677-10 ◽

2011 ◽

Vol 77 (9) ◽

pp. 3061-3067 ◽

Cited By ~ 123

Author(s):

Che O'May ◽

Nathalie Tufenkji

Keyword(s):

Pseudomonas Aeruginosa ◽

Bacterial Adhesion ◽

Type Iv Pili ◽

Hydrolyzable Tannin ◽

Swarming Motility ◽

Subsequent Formation ◽

Content Type ◽

Type Iv ◽

Derivatives Of ◽

Growth Experiments

ABSTRACTBacterial motility plays a key role in the colonization of surfaces by bacteria and the subsequent formation of resistant communities of bacteria called biofilms. Derivatives of cranberry fruit, predominantly condensed tannins called proanthocyanidins (PACs) have been reported to interfere with bacterial adhesion, but the effects of PACs and other tannins on bacterial motilities remain largely unknown. In this study, we investigated whether cranberry PAC (CPAC) and the hydrolyzable tannin in pomegranate (PG; punicalagin) affected the levels of motilities exhibited by the bacteriumPseudomonas aeruginosa. This bacterium utilizes flagellum-mediated swimming motility to approach a surface, attaches, and then further spreads via the surface-associated motilities designated swarming and twitching, mediated by multiple flagella and type IV pili, respectively. Under the conditions tested, both CPAC and PG completely blocked swarming motility but did not block swimming or twitching motilities. Other cranberry-containing materials and extracts of green tea (also rich in tannins) were also able to block or impair swarming motility. Moreover, swarming bacteria were repelled by filter paper discs impregnated with many tannin-containing materials. Growth experiments demonstrated that the majority of these compounds did not impair bacterial growth. When CPAC- or PG-containing medium was supplemented with surfactant (rhamnolipid), swarming motility was partially restored, suggesting that the effective tannins are in part acting by a rhamnolipid-related mechanism. Further support for this theory was provided by demonstrating that the agar surrounding tannin-induced nonswarming bacteria was considerably less hydrophilic than the agar area surrounding swarming bacteria. This is the first study to show that natural compounds containing tannins are able to blockP. aeruginosaswarming motility and that swarming bacteria are repelled by such compounds.

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Inhibition of Shear-Induced Platelet Aggregation by Xueshuantong via Targeting Piezo1 Channel-Mediated Ca2+ Signaling Pathway

Frontiers in Pharmacology ◽

10.3389/fphar.2021.606245 ◽

2021 ◽

Vol 12 ◽

Author(s):

Lei Liu ◽

Qiongling Zhang ◽

Shunli Xiao ◽

Zhengxiao Sun ◽

Shilan Ding ◽

...

Keyword(s):

Platelet Aggregation ◽

Platelet Adhesion ◽

Panax Notoginseng ◽

Underlying Mechanism ◽

Cerebrovascular Diseases ◽

Signal Pathway ◽

Therapeutic Action ◽

Aggregation Assay ◽

Platelet Aggregation Assay ◽

Calpain 2

XueShuanTong (XST) comprising therapeutically active ginsenosides, a lyophilized extract of Panax notoginseng roots, is extensively used in traditional Chinese medicine to treat ischemic heart and cerebrovascular diseases. Our recent study shows that treatment with XST inhibits shear-induced thrombosis formation but the underlying mechanism remained unclear. This study aimed to investigate the hypothesis that XST inhibited shear-induced platelet aggregation via targeting the mechanosensitive Ca2+-permeable Piezo1 channel by performing platelet aggregation assay, Ca2+ imaging and Western blotting analysis. Exposure to shear at physiologically (1,000–2000 s−1) and pathologically related rates (4,000–6,000 s−1) induced platelet aggregation that was inhibited by treatment with GsMTx-4. Exposure to shear evoked robust Ca2+ responses in platelets that were inhibited by treatment with GsMTx-4 and conversely enhanced by treatment with Yoda1. Treatment with XST at a clinically relevant concentration (0.15 g L−1) potently inhibited shear-induced Ca2+ responses and platelet aggregation, without altering vWF-mediated platelet adhesion and rolling. Exposure to shear, while resulting in no effect on the calpain-2 expression in platelets, induced calpain-2-mediated cleavage of talin1 protein, which is known to be critical for platelet activation. Shear-induced activation of calpain-2 and cleavage of talin1 were attenuated by treatment with XST. Taken together, our results suggest that XST inhibits shear-induced platelet aggregation via targeting the Piezo1 channel to prevent Piezo1-mediated Ca2+ signaling and downstream calpain-2 and talin1 signal pathway, thus providing novel insights into the mechanism of the therapeutic action of XST on platelet aggregation and thrombosis formation.

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Discovery of a New Neisseria gonorrhoeae Type IV Pilus Assembly Factor, TfpC

mBio ◽

10.1128/mbio.02528-20 ◽

2020 ◽

Vol 11 (5) ◽

Author(s):

Linda I. Hu ◽

Shaohui Yin ◽

Egon A. Ozer ◽

Lee Sewell ◽

Saima Rehman ◽

...

Keyword(s):

Cell Surface ◽

Neisseria Gonorrhoeae ◽

Bacterial Cell ◽

Bacterial Species ◽

Type Iv Pili ◽

Type Iv Pilus ◽

Transmitted Infection ◽

Content Type ◽

Sexually Transmitted ◽

Type Iv

ABSTRACT Neisseria gonorrhoeae relies on type IV pili (T4p) to promote colonization of their human host and to cause the sexually transmitted infection gonorrhea. This organelle cycles through a process of extension and retraction back into the bacterial cell. Through a genetic screen, we identified the NGO0783 locus of N. gonorrhoeae strain FA1090 as containing a gene encoding a protein required to stabilize the type IV pilus in its extended, nonretracted conformation. We have named the gene tfpC and the protein TfpC. Deletion of tfpC produces a nonpiliated colony morphology, and immuno-transmission electron microscopy confirms that the pili are lost in the ΔtfpC mutant, although there is some pilin detected near the bacterial cell surface. A copy of the tfpC gene expressed from a lac promoter restores pilus expression and related phenotypes. A ΔtfpC mutant shows reduced levels of pilin protein, but complementation with a tfpC gene restored pilin to normal levels. Bioinformatic searches show that there are orthologues in numerous bacterial species, but not all type IV pilin-expressing bacteria contain orthologous genes. Coevolution and nuclear magnetic resonance (NMR) analysis indicates that TfpC contains an N-terminal transmembrane helix, a substantial extended/unstructured region, and a highly charged C-terminal coiled-coil domain. IMPORTANCE Most bacterial species express one or more extracellular organelles called pili/fimbriae that are required for many properties of each bacterial cell. The Neisseria gonorrhoeae type IV pilus is a major virulence and colonization factor for the sexually transmitted infection gonorrhea. We have discovered a new protein of Neisseria gonorrhoeae called TfpC that is required to maintain type IV pili on the bacterial cell surface. There are similar proteins found in other members of the Neisseria genus and many other bacterial species important for human health.

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Characterization of Zoospore Type IV Pili inActinoplanes missouriensis

Journal of Bacteriology ◽

10.1128/jb.00746-18 ◽

2019 ◽

Vol 201 (14) ◽

Cited By ~ 4

Author(s):

Tomohiro Kimura ◽

Takeaki Tezuka ◽

Daisuke Nakane ◽

Takayuki Nishizaka ◽

Shin-Ichi Aizawa ◽

...

Keyword(s):

Vegetative Growth ◽

Physiological State ◽

Type Iv Pili ◽

Solid Surfaces ◽

Cellular Biology ◽

Content Type ◽

Type Iv ◽

Transmission Electron ◽

Rare Actinomycetes ◽

Transcriptional Units

ABSTRACTThe rare actinomyceteActinoplanes missouriensisproduces terminal sporangia containing a few hundred flagellated spores. After release from the sporangia, the spores swim rapidly in aquatic environments as zoospores. The zoospores stop swimming and begin to germinate in niches for vegetative growth. Here, we report the characterization and functional analysis of zoospore type IV pili inA. missouriensis. The pilus gene (pil) cluster, consisting of three apparently σFliA-dependent transcriptional units, is activated during sporangium formation similarly to the flagellar gene cluster, indicating that the zoospore has not only flagella but also pili. With a new method in which zoospores were fixed with glutaraldehyde to prevent pilus retraction, zoospore pili were observed relatively easily using transmission electron microscopy, showing 6 ± 3 pili per zoospore (n = 37 piliated zoospores) and a length of 0.62 ± 0.35 μm (n = 206), via observation offliC-deleted, nonflagellated zoospores. No pili were observed in the zoospores of a prepilin-encodingpilAdeletion (ΔpilA) mutant. In addition, the deletion ofpilT, which encodes an ATPase predicted to be involved in pilus retraction, substantially reduced the frequency of pilus retraction. Several adhesion experiments using wild-type and ΔpilAzoospores indicated that the zoospore pili are required for the sufficient adhesion of zoospores to hydrophobic solid surfaces. Many zoospore-forming rare actinomycetes conserve thepilcluster, which indicates that the zoospore pili yield an evolutionary benefit in the adhesion of zoospores to hydrophobic materials as footholds for germination in their mycelial growth.IMPORTANCEBacterial zoospores are interesting cells in that their physiological state changes dynamically: they are dormant in sporangia, show temporary mobility after awakening, and finally stop swimming to germinate in niches for vegetative growth. However, the cellular biology of a zoospore remains largely unknown. This study describes unprecedented zoospore type IV pili in the rare actinomyceteActinoplanes missouriensis. Similar to the case for the usual bacterial type IV pili, zoospore pili appeared to be retractable. Our findings that the zoospore pili have a functional role in the adhesion of zoospores to hydrophobic solid surfaces and that the zoospores use both pili and flagella properly according to their different purposes provide an important insight into the cellular biology of the zoospore.

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