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Introduction
Louis S Tisa currently works at the Department of Molecular, Cellular and Biomedical Sciences, University of New Hampshire. His research centers on microbe-plant, microbe-nematode and microbe-rock interactions and uses techniques of Microbial Genomics, Genetics, Microbiology and Molecular Biology. Current projects are 'Developing Genetic and Genomic tools for Frankia and the Actinorhizal Symbiosis', 'Identifying the Frankia signal molecule(s) involved in recognition of the actinorhizal symbiosis' 'Using Frankia in Biodegradation.', 'Genome-guided approaches toward Serratia pathogenesis' and 'Understanding Microbial Community Structure found on Rock Surfaces.'
Additional affiliations
July 1981 - April 1987
September 1994 - present
April 1987 - August 1989
Education
July 1981 - April 1987
September 1976 - July 1978
Publications
Publications (256)
Although it is now well‐established that decorated lipo‐chitooligosaccharide Nod factors are the key rhizobial signals which initiate infection/nodulation in host legume species, the identity of the equivalent microbial signaling molecules in the Frankia /actinorhizal association remains elusive.
With the objective of identifying Frankia symbiotic...
Background
Soil salinization is a worldwide problem that is intensifying because of the effects of climate change. An effective method for the reclamation of salt-affected soils involves initiating plant succession using fast growing, nitrogen fixing actinorhizal trees such as the Casuarina. The salt tolerance of Casuarina is enhanced by the nitrog...
The absence of genetic tools for Frankia research has been a major hindrance to the associated field of actinorhizal symbiosis and the use of the nitrogen-fixing actinobacteria. This study reports on the introduction of plasmids into Frankia spp. and their functional expression of green fluorescent protein and a cloned gene. As the first step in de...
Stone surfaces are extreme environments that support microbial life. This microbial growth occurs despite unfavorable conditions associated with stone including limited sources of nutrients and water, high pH, and exposure to extreme variations in temperature, humidity and irradiation. These stone‐dwelling microbes are often resistant to extreme en...
Actinorhizal plants host mutualistic symbionts of the nitrogen-fixing actinobacterial genus Frankia within nodule structures formed on their roots. Several plant-growth-promoting bacteria have also been isolated from actinorhizal root nodules, but little is known about them. We were interested investigating the in planta microbial community composi...
In many frankia, the ability to nodulate host plants (Nod+) and fix nitrogen (Fix+) is a common strategy. However, some frankia within the Pseudofrankia genus lack one or two of these traits. This phenomenon has been consistently observed across various actinorhizal nodule isolates, displaying Nod− and/or Fix− phenotypes. Yet, the mechanisms suppor...
Streptomyces Strain San01 is isolated from the soil of ant-nest found in the tea estate of Darjeeling, India. The morphology, biochemical, as well as the molecular characteristics, proved that San01 belonged to the genus Streptomyces. The average nucleotide identity (ANI) value between the genome sequence of the studied strain and its closest phylo...
A new Bradyrhizobium vignae strain called ISRA400 was isolated from groundnut (Arachis hypogaea L.) root nodules obtained by trapping the bacteria from soil samples collected in the Senegalese groundnut basin. In this study, we present the draft genome sequence of this strain ISRA400, which spans approximatively 7.9 Mbp and exhibits a G+C content o...
The actinorhizal plant, Coriaria myrtifolia, is a neurotoxic plant species endemic to the western Mediterranean area, which forms a nitrogen-fixing symbiosis with members of Frankia cluster 2. Contrarily to other Frankia clusters, the occurrence and mode of dispersal for infective cluster 2 units outside of the host plant rhizosphere remains contro...
Nine bacterial strains isolated from the root nodules of Alnus incana were sequenced to determine their potential roles in plant health. The selected bacterial isolates belonged to the genera Bacillus, Herbaspirillum, Pantoea, Paenibacillus, and Rothia. Here, we report the draft genome sequences.
Here, we announce four contiguous and two high-quality draft genome sequences of six actinobacterial strains ( Blastococcus, Georgenia, Nocardioides, Allobranchiibius, Yimella, and Williamsia ) that were isolated from rock samples obtained from Indian historical ruins and colonial building stones in New England, United States. These new sequences e...
Metagenomic analysis of stone microbiome from samples collected in New England, USA and Tamil Nadu, India identified numerous Actinobacteria including Geodermatphilaceae. A culture-dependent approach was performed as a companion study with this culture-independent metagenomic analysis of these stone samples and resulted in the isolation of eleven G...
Strain San01, isolated from an ant-nest found in the tea estate of Darjeeling, India, was the subject of polyphasic taxonomic studies. Phylogenetic studies based on multilocus sequence analysis ( atpK , gyrA , ftsZ , dnaK and secA ) showed that isolate San01 forms a separate branch within the genus Streptomyces with Streptomyces avermitilis MA-4680...
Here, we report the draft genome sequences obtained for 6 actinobacterial strains isolated from stone surfaces acquired from New England and Indian ruins. These strains were sequenced to determine their potential functional roles in the stone microbiome. The strains belong to the genera Allobranchiibius , Agrococcus , Dermococcus , Leifsonia , and...
Although stone surfaces seem unlikely to be habitable, they support microbial life. Life on these surfaces are subjected to many varying harsh conditions and require the inhabitants to exhibit resistance to environmental factors including UV irradiation, toxic metal exposure, and fluctuating temperatures and humidity. Here we report the effect of h...
Three Gram-stain-negative, rod-shaped, non-spore-forming bacteria, BA1 T , Q614 T and PB68.1 T , isolated from the digestive system of Heterorhabditis entomopathogenic nematodes, were biochemically and molecularly characterized to clarify their taxonomic affiliations. The 16S rRNA gene sequences of these strains suggest that they belong to the Gamm...
Members of the actinomycete genus Frankia form a nitrogen-fixing symbiosis with 8 different families of actinorhizal plants. We
report a 5.57-Mbp draft genome sequence for Frankia sp. strain CcI6, a salt-tolerant nitrogen-fixing actinobacterium isolated
from root nodules of Casurina cunninghamiana grown in Egyptian soils.
Frankia sp. strains CgS1, CcI156 and CgMI4 were isolated from Casuarina glauca and C. cunninghamiana nodules. Here, we report the 5.26-, 5.33-and 5.20-Mbp draft genome sequences of Frankia sp. strains CgS1, CcI156 and CgMI4, respectively. Analysis of the genome revealed the presence of high numbers of secondary metabolic biosynthetic gene clusters.
Frankia sp. strain BMG5.11, which was isolated from Elaeagnus angustifolia nodules, is able to infect other actinorhizal plants, including Elaeagnaceae, Rhamnaceae, Colletieae, Gymnostoma, and Myricaceae Here, we report the 11.3-Mbp draft genome sequence of Frankia sp. strain BMG5.11, with a G+C content of 69.9% and 9,926 candidate protein-encoding...
Frankia sp. strain B2 was isolated from Casuarina cunninghamiana nodules. Here, we report the 5.3-Mbp draft genome sequence of Frankia sp. strain B2 with a G+C content of 70.1 % and 4,663 candidate protein-encoding genes. Analysis of the genome revealed the presence of high numbers of secondary metabolic biosynthetic gene clusters.
Here, we report the draft genome sequences obtained for 10 bacterial strains isolated from root nodules of Alnus trees. These members of the nodule microbiome were sequenced to determine their potential functional roles in plant health. The selected strains belong to the genera Rhodococcus , Kocuria , Rothia , Herbaspirillum , Streptomyces , and Th...
Actinobacteria from the genus Frankia are Gram+, aerobic, heterotrophic and filamentous bacteria found living independently in soil or as facultative symbionts that form N2-fixing root nodules on diverse and globally distributed angiosperms called actinorhizal species. This symbiotic association has important ecological and economic roles such as s...
This study was designed to determine the plant growth promoting (PGP) potential of members of the genus Frankia. To this end, the genomes of 21 representative strains were examined for genes associated directly or indirectly with plant growth. All of the Frankia genomes contained genes that encoded for products associated with the biosynthesis of a...
Actinorhizal root nodules result from the interaction between a nitrogen-fixing actinomycete from the genus Frankia and roots of dicotyledonous trees and shrubs belonging to 25 genera within 8 plant families. Most actinorhizal plants can reach high rates of nitrogen fixation comparable to those found in root nodule symbiosis of the legumes. As a co...
Strain CpI1T was, in 1978, the first isolate of the genus Frankia to be obtained from Comptonia peregrina root nodules. In this study, a polyphasic approach was performed to identify the taxonomic position of strain CpI1T among the members of the genus Frankia. The strain contains meso-diaminopimelic acid as the diagnostic diamino acid and galactos...
Frankia sp. strain BMG5.30 was isolated from root nodules of a Coriaria myrtifolia seedling on soil collected in Tunisia and represents the second cluster 2 isolate. Frankia sp. strain BMG5.30 was able to re-infect C. myrtifolia generating root nodules. Here, we report its 5.8-Mbp draft genome sequence with a G + C content of 70.03% and 4509 candid...
Protein functional domains are semi-autonomous parts of proteins capable of functioning independently. One protein may contain several domains and one domain may be present in different protein sequences. Thus, protein domains represent the niche specific adaptive nature of an organism. We hypothesized that the presence and absence of protein domai...
Molecular analysis of the filamentous
actinobacteria Frankia is laborious because of the
slow growth rate and required biomass needed for
these techniques. An efficient and simple colony PCR
protocol for Frankia was developed that saved time
for analysis of any Frankia strains growing on a plate.
Previously, it took 5–6 weeks to get the correct siz...
Actinorhizal plants form a symbiotic association with the nitrogen-fixing actinobacteria Frankia. These plants have important economic and ecological benefits including land reclamation, soil stabilization, and reforestation. Recently, many non-Frankia actinobacteria have been isolated from actinorhizal root nodules suggesting that they might contr...
Since the recognition of the name Frankia in the Approved Lists of bacterial names (1980), few amendments have been given to the genus description. Successive editions of Bergey’s Manual of Systematics of Archaea and Bacteria have broadly conflicting suprageneric treatments of the genus without any advances for subgeneric classification. This revie...
Carbohydrate active enzymes (CAZymes) are capable of breaking complex polysaccharides into simpler form. In plant-host-associated microorganisms CAZymes are known to be involved in plant cell wall degradation. However, the biology and evolution of Frankia CAZymes are largely unknown. In the present study, we took a genomic approach to evaluate the...
Four Frankia strains (EuI1c, CN3, ACN14a and CcI3) were tested for selenite tolerance. Frankia inefficax strain EuI1c was resistant to selenite with a MIC value of 518.8 µg ml⁻¹. After 48 h incubation with selenite, a reddish precipitate began to appear in these cultures. The red color suggests the reduction of the toxic, soluble, and colorless sod...
Actinorhizal plants are able to establish a symbiotic relationship with Frankia bacteria leading to the formation of root nodules. The symbiotic interaction starts with the exchange of symbiotic signals in the soil between the plant and the bacteria. This molecular dialog involves signaling molecules that are responsible for the specific recognitio...
Actinorhizal plants form a symbiotic
association with the nitrogen-fixing actinobacteria
Frankia. These plants have important economic and
ecological benefits including land reclamation, soil
stabilization, and reforestation. Recently, many non-
Frankia actinobacteria have been isolated from actinorhizal
root nodules suggesting that they might
cont...
Despite a wealth of knowledge regarding calcium’s role as secondary messenger in eukaryotic cells, relatively little is known about calcium homeostasis in bacteria. Our study employing molecular genetics and transcriptome analysis of calcium homeostasis previously exhibited a calcium regulation of gene expression in elevated or depleted calcium thr...
Frankia sp. strain CcI49 was isolated from Casuarina cunninghamiana nodules. However the strain
was unable to re-infect Casuarina, but was able to infect other actinorhizal plants including
Elaeagnaceae. Here, we report the 9.8-Mbp draft genome sequence of Frankia sp. strain CcI49 with
a G+C content of 70.5 % and 7,441 candidate protein-encoding ge...
Frankia sp. NRRL B-16219 was directly isolated from a soil sample obtained from the rhizosphere of Ceanothus jepsonii growing in the USA. Its host plant range includes members of Elaeagnaceae species. Phylogenetically, strain NRRL B-16219 is closely related to “Frankia discariae” with a 16S rRNA gene similarity of 99.78%. Because of the lack of gen...
Frankia is a representative genus of nitrogen-fixing (N2-fixing) actinobacteria; however, the molecular mechanisms underlying various phenomena such as the differentiation of a N2 fixation-specific structure (vesicle) and the regulation of N2 fixation (nif) genes, have yet to be elucidated in detail. In the present study, we screened hyphal fragmen...
Amino acid and protein biosynthesis requires a number of high energy phosphate bonds and includes a dual energy cost for the synthesis of chemical intermediates during the fueling reactions and the conversion of precursor molecules to final products. One popular hypothesis is that the proteins encoded by putative highly expressed genes (hence calle...
The genus Mesorhizobium contains many species that are able to form nitrogen-fixing nodules on plants of the legume family. Here, we report the draft genome sequences for three Mesorhizobium strains. The genome sizes of strains LCM 4576, LCM 4577, and ORS3428 were 7.24, 7.02, and 6.55 Mbp, respectively.
Hemolysins are important virulence factors for many bacterial pathogens, including Serratia marcescens. The role of the major hemolysin gene in the insect pathogen Serratia sp. strain SCBI was investigated using both forward and reverse-genetics approaches. Introduction of the major hemolysin gene into Escherichia coli resulted in a gain of both vi...
Photorhabdus temperata strain Hm is an entomopathogenic bacterium that forms a symbiotic association with Heterorhabditis nematodes. Here, we report a 5.0-Mbp draft genome sequence for P. temperata strain Hm with a G+C content of 44.1% and containing 4,226 candidate protein-encoding genes.
Strain BCU110501T was the first isolate reported to fulfill Koch's postulates by inducing effective nodules on its host plant of origin Discaria trinervis (Rhalmnaceae). Based on 16S rRNA gene sequence similarities, the strain was found to be most closely related to the type strain of Frankia elaeagni DSM 46783T (98.6%) followed by F. alni DSM 4598...
Frankia sp. strain Cc1.17 is a member of the Frankia lineage 3, the organisms of which are able to reinfect plants of the Eleagnaceae, Rhamnaceae, and Myricaceae families and the genera Gynmnostoma and Alnus . Here, we report the 8.4-Mbp draft genome sequence, with a G+C content of 72.14% and 6,721 candidate protein-coding genes.
Frankia sp. strain KB5 was isolated from Casuarina equisetifolia and previous studies have shown both nitrogenase and uptake hydrogenase activities under free-living conditions. Here, we report 5.5-Mbp draft genome sequence with a G+C content of 70.03 %, 4,958 candidate protein-encoding genes, and 2 rRNA operons.
The genus Rhizobium contains many species that are able to form nitrogen-fixing nodules on plants of the legume family. Here, we report the 5.5-Mb draft genome sequence of the salt-tolerant Rhizobium sp. strain LCM 4573, which has a G+C content of 61.2% and 5,356 candidate protein-encoding genes.