about
An assemblage of Frankia Cluster II strains from California contains the canonical nod genes and also the sulfotransferase gene nodHA member of the germin-like protein family is a highly conserved mycorrhiza-specific induced gene.Symbiotic and non-symbiotic expression of cgMT1, a metallothionein-like gene from the actinorhizal tree Casuarina glauca.A nodule-specific dicarboxylate transporter from alder is a member of the peptide transporter family.Novel expression pattern of cytosolic Gln synthetase in nitrogen-fixing root nodules of the actinorhizal host, Datisca glomerata.Composite Cucurbita pepo plants with transgenic roots as a tool to study root developmentComparison of nodule induction in legume and actinorhizal symbioses: the induction of actinorhizal nodules does not involve ENOD40.Genome sequence of "Candidatus Frankia datiscae" Dg1, the uncultured microsymbiont from nitrogen-fixing root nodules of the dicot Datisca glomerataTwo novel disaccharides, rutinose and methylrutinose, are involved in carbon metabolism in Datisca glomerata.Comparison of the nodule vs. root transcriptome of the actinorhizal plant Datisca glomerata: actinorhizal nodules contain a specific class of defensinsCandidatus Frankia Datiscae Dg1, the Actinobacterial Microsymbiont of Datisca glomerata, Expresses the Canonical nod Genes nodABC in Symbiosis with Its Host Plant.Is salt stress tolerance in Casuarina glauca Sieb. ex Spreng. associated with its nitrogen-fixing root-nodule symbiosis? An analysis at the photosynthetic level.Antioxidative ability and membrane integrity in salt-induced responses of Casuarina glauca Sieber ex Spreng. in symbiosis with N2-fixing Frankia Thr or supplemented with mineral nitrogen.A nodule-specific gene family from Alnus glutinosa encodes glycine- and histidine-rich proteins expressed in the early stages of actinorhizal nodule development.The diversity of actinorhizal symbiosis.Plasmodesmata distribution and sugar partitioning in nitrogen-fixing root nodules of Datisca glomerataPlasmodesmata without callose and calreticulin in higher plants - open channels for fast symplastic transport?The Huperzia selago Shoot Tip Transcriptome Sheds New Light on the Evolution of Leaves.Truncated hemoglobins in actinorhizal nodules of Datisca glomerata.Proposal of 'Candidatus Frankia californiensis', the uncultured symbiont in nitrogen-fixing root nodules of a phylogenetically broad group of hosts endemic to western North America.Evidence for functional heterogeneity of sieve element-companion cell complexes in minor vein phloem of Alonsoa meridionalis.Piriformospora indica affects plant growth by auxin production.Allene oxide synthase, allene oxide cyclase and jasmonic acid levels in Lotus japonicus nodules.Flavan-containing cells delimit Frankia-infected compartments in Casuarina glauca nodules.Isolation and characterization of a cDNA from Cuphea lanceolata encoding a beta-ketoacyl-ACP reductase.Characterization of a novel Azorhizobium caulinodans ORS571 two-component regulatory system, NtrY/NtrX, involved in nitrogen fixation and metabolism.Distinct patterns of symbiosis-related gene expression in actinorhizal nodules from different plant families.The Azorhizobium caulinodans nitrogen-fixation regulatory gene, nifA, is controlled by the cellular nitrogen and oxygen status.Genomic changes associated with the evolutionary transitions of Nostoc to a plant symbiont.Lateral root initiation and formation within the parental root meristem of Cucurbita pepo: is auxin a key player?Root-based N2-fixing Symbioses: Legumes, Actinorhizal Plants, Parasponia sp. and CycadsPhylogenomics reveals multiple losses of nitrogen-fixing root nodule symbiosisThe levels of peroxisomal catalase protein and activity modulate the onset of cell death in tobacco BY-2 cells via reactive oxygen species levels and autophagyLignification of cell walls of infected cells inCasuarina glaucanodules that depend on symplastic sugar supply is accompanied by reduction of plasmodesmata number and narrowing of plasmodesmataComparative Analysis of the Nodule Transcriptomes of (Rhamnaceae, Rosales) and (Datiscaceae, Cucurbitales)Distinct roles of Lotus japonicus SYMRK and SYM15 in root colonization and arbuscule formationProgress on research on actinorhizal plantsAn integrated approach to understand the mechanisms underlying salt stress tolerance in Casuarina glauca and its relation with nitrogen-fixing Frankia ThrOrganic acids metabolism in Frankia alniSalt Stress Tolerance in Casuarina glauca and Its Relation with Nitrogen-Fixing Frankia Bacteria
P50
Q28597724-44B627B7-685C-4DC9-A9EF-9AAA65FFAA19Q31028079-8E6007DF-6651-45B4-9F9F-DDA7222F0B76Q31055259-10EE728B-DCC7-4125-9F42-FE197A550F38Q33198819-7AA5EC7F-64FA-4503-B8AF-371AAB613EA0Q33340201-C0C9C28E-C14D-48EC-AE71-9D529EF5F6C9Q33353470-D0350141-F465-46CF-94AD-433602FD64CCQ34230137-44E7B0E9-98D9-49BB-B05B-9F260EF5B9ACQ34236502-FCBAB299-2B0E-4EFE-8488-5BF8F1DC6580Q34613864-BC8D3496-D087-4FF3-A8DB-C0B82212611AQ34979533-E7D70A80-5A51-425B-BECC-543843317FE6Q35644929-0894C7F1-F95E-4E72-A3A9-9F54916571BAQ35738330-24A077DC-8F59-4FA3-BD65-67A4346B59D0Q35987224-93F0815C-C657-4750-B480-36952CFAA021Q36868335-413B2ED9-3BD2-404A-9290-85707254A572Q37991521-1C6CAA61-7F69-40CD-AAEB-628ACAF4A1B7Q41618244-B8FAC5D7-3021-469F-B830-5A6D942FF620Q41876853-5E40E626-2266-4E98-813A-1FF099E893F5Q41889036-A590F6AB-EBE4-4937-BCF3-2FFCEED1BFA2Q44944081-914902B1-0E42-4797-8F8B-156E1472BC82Q45762733-F97EEC59-1360-4D0D-A119-236203A67A3BQ46074750-1A568432-29E7-43BE-912D-7FFF29572557Q46770731-28570A1E-CC64-4A69-AEF8-FAFDDACF37A4Q47229830-D4EC6638-B2A6-4A59-A3CC-99BC6993A11BQ47929785-29EB5164-3F08-4C0D-BC5B-FDE48AD00741Q48175798-494F70B3-5165-41F8-9D66-15B2DD98A6F2Q48199390-AC62AED9-FAB4-4BCC-9EC0-38D4F1F79669Q48228626-68EF2909-FC63-47B1-80DC-C70D623F5390Q48295416-10677972-9BC7-4159-AA43-214BC7D70C08Q51146718-12BF15A5-F411-4599-B7A2-E5261A9BC16DQ52570035-76D51F1C-BE65-4DB8-B01F-42A61898BF83Q56444184-A876E4F0-3349-4580-B1C6-344079AAFF9EQ56669488-ABD5603A-2123-4612-9A7D-C18A8D150DB4Q57246205-1B6E2189-4CE9-40F0-BFA0-5ECCA0F5C8FEQ57246232-C7F30784-EA39-441F-A13A-5E9F4F02F9D9Q59328944-2C2A8A6F-113A-47C8-BC23-61A6524BA5ACQ60257747-A1A06944-5090-4F20-9AF1-4A3C48BADFEEQ60390748-F182E7FC-5D21-4A51-BF60-A992B768DEA2Q60449816-FA8E1BB9-9249-4AA9-AB00-E6B0BFB7B5A8Q60449818-F449620E-8A00-4A13-83DE-D5BB2A8FEFC0Q60449819-C4B40B1F-9625-4F2F-82DC-E74392D73050
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
ricercatrice
@it
հետազոտող
@hy
name
Katharina Pawlowski
@ast
Katharina Pawlowski
@en
Katharina Pawlowski
@es
Katharina Pawlowski
@nl
Katharina Pawlowski
@sl
type
label
Katharina Pawlowski
@ast
Katharina Pawlowski
@en
Katharina Pawlowski
@es
Katharina Pawlowski
@nl
Katharina Pawlowski
@sl
prefLabel
Katharina Pawlowski
@ast
Katharina Pawlowski
@en
Katharina Pawlowski
@es
Katharina Pawlowski
@nl
Katharina Pawlowski
@sl
P1006
P214
P1006
P106
P1153
7006026243
P21
P214
P31
P496
0000-0003-2693-885X
P735
P7859
lccn-nb2003092990