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Abies sibirica; Aconitum; Actaea; Alchemilla; Allium; Alnus hirsuta-type; Andromeda; Anemone; Anthemis-type; Apiaceae; Aquilegia sp.; Arctostaphylos; Arenaria-type; Artemisia; Asplenium ruta-muraria; Asteraceae asteroideae undifforma; Aster-type; Astragalus-type; Athyrium alpestre; Athyrium filix-femina; Bergenia crassifolia; Betula sect. Albae; Betula sect. Fruticosae; Betula sect. Nanae; Boraginaceae; Botrychium; Botrychium lunaria-type; Brassicaceae; Bupleurum; Caltha-type; Campanula-type; Caryophyllaceae indeterminata; Cassiope; Centaurea nigra-type; Centaurea scabiosa-type; Centaurea sp.; Chenopodiaceae; Chrysosplenium; Cichorioideae undifforma; Cirsium; Clematis; CON01-6; CON01-603-5; CONTINENT; Cotoneaster; Counting, palynology; Cyperaceae indeterminata; Cystopteris fragilis; Cystopteris indeterminata; DEPTH, sediment/rock; Diphasium complanatum-type; Dryas; Dryopteris carthusiana-type; Dryopteris-type; Duschekia fruticosa; Elymus-type; Empetrum nigrum; Ephedra distachya-type; Ephedra fragilis-type; Epilobium-type; Equisetum; Ericaceae indeterminata; Euphorbia; Frangula alnus; Galium-type; Gentianaceae indeterminata; Gentiana pneumonanthe-type; Gentianella campestris-type; Geum-type; Gymnocarpium dryopteris; Hedysarum; High-resolution Continental Paleoclimate Record in Lake Baikal; Hippophae; Hippuris; Humulus and Cannabis; Huperzia; Illecebrun-type; Iris germanica-type; Juniperus; KAL; Kasten corer; Knautia; Koenigia islandica; Lake Baikal, Russia; Larix; Ledum palustre; Lilium; Linnaea borealis; Lonicera; Lychnis; Lycopodiaceae sp.; Lycopodium annotinum; Lycopodium clavatum; Lycopodium inundatum; Lysimachia; Lythrum; Maianthemum bifolium; Marker, added; Marker, found; Menyanthes trifoliata; Myosotis; Myricaria; Myriophyllum spicatum; Myriophyllum verticillatum; Nitraria; Nuphar; Nymphaea; Nymphoides peltata; Oxyria/Rumex subgen. Acetosa; Oxyria digyna; Palynomorpha; Papaver; Papaver argemone-type; Parnassia; Pedicularis oederi-type; Picea obovata; Pinus sibirica; Pinus sylvestris-type; Plantago indeterminata; Plantago maritima-type; Plumbaginaceae; Poaceae; Polemonium; pollen analytical standard techniques (Faegri & Iversen, 1989, Textbook Pollen); Polygonatum; Polygonum; Polygonum amphibium; Polygonum aviculare-type; Polygonum bistorta-type; Polygonum sect. Persicaria; Polygonum viviparum; Polypodium; Polystichum; Populus; Potamogeton; Potentilla-type; Primula; Prunus; Pteridium aquilinum; Pteridophyta, monolete psilate; Pteridophyta, monolete verrucate; Pteridophyta, monolete with perine; Pteridophyta, trilete indeterminata; Pulsatilla-type; Ranunculaceae; Ranunculus acris-type; Ranunculus aquatilis-type; Ranunculus flammula-type; Rhamnus; Rhinanthus-type; Rhododendron; Ribes; Riccia; Rosa; Rosaceae; Rosaceae indeterminata; Rubus-type; Rumex; Rumex acetosa-type; Rumex conglomeratus-type; Rumex obtusifolius-type; Salix; Sambucus; Sample code/label; Sample volume; Sanguisorba officinalis; Saussurea-type; Saxifraga granulata-type; Saxifraga hirsuta; Saxifraga hypnoides-type; Saxifraga oppositifolia-type; Saxifraga stellaris-type; Scirpus-type; Scorzonera-type; Scrophulariaceae; Scrophularia-type; Scutellaria; Sedum-type; Selaginella; Selaginella apoda; Selaginella helvetica; Selaginella rupestris; Selaginella sanguinolenta; Selaginella selaginoides; Serratula-type; Silene dioica-type; Solanum dulcamara-type; Sorbus; Sparganium; Spergula-type; Sphagnum; Spiraea; Sporomorphes, total; Stachys-type; Swertia; Thalictrum; Thelypteris palustris; Thymus-type; Tofieldia; Trientalis europaea; Trifolium-type; Triticum-type; Trollius; Typha angustifolia-type; Typha latifolia-type; Ulnus; Urticaceae; Utricularia; Vaccinium-type; Valeriana; Valerianaceae; Vereshchagin; Veronica-type; Woodsia-type; Xanthium-type (1)
Chiral auxiliaries (1)
DYANA (1)
2000-2004 (2)
1995-1999 (1)
1940-1944

Keywords

Abies sibirica; Aconitum; Actaea; Alchemilla; Allium; Alnus hirsuta-type; Andromeda; Anemone; Anthemis-type; Apiaceae; Aquilegia sp.; Arctostaphylos; Arenaria-type; Artemisia; Asplenium ruta-muraria; Asteraceae asteroideae undifforma; Aster-type; Astragalus-type; Athyrium alpestre; Athyrium filix-femina; Bergenia crassifolia; Betula sect. Albae; Betula sect. Fruticosae; Betula sect. Nanae; Boraginaceae; Botrychium; Botrychium lunaria-type; Brassicaceae; Bupleurum; Caltha-type; Campanula-type; Caryophyllaceae indeterminata; Cassiope; Centaurea nigra-type; Centaurea scabiosa-type; Centaurea sp.; Chenopodiaceae; Chrysosplenium; Cichorioideae undifforma; Cirsium; Clematis; CON01-6; CON01-603-5; CONTINENT; Cotoneaster; Counting, palynology; Cyperaceae indeterminata; Cystopteris fragilis; Cystopteris indeterminata; DEPTH, sediment/rock; Diphasium complanatum-type; Dryas; Dryopteris carthusiana-type; Dryopteris-type; Duschekia fruticosa; Elymus-type; Empetrum nigrum; Ephedra distachya-type; Ephedra fragilis-type; Epilobium-type; Equisetum; Ericaceae indeterminata; Euphorbia; Frangula alnus; Galium-type; Gentianaceae indeterminata; Gentiana pneumonanthe-type; Gentianella campestris-type; Geum-type; Gymnocarpium dryopteris; Hedysarum; High-resolution Continental Paleoclimate Record in Lake Baikal; Hippophae; Hippuris; Humulus and Cannabis; Huperzia; Illecebrun-type; Iris germanica-type; Juniperus; KAL; Kasten corer; Knautia; Koenigia islandica; Lake Baikal, Russia; Larix; Ledum palustre; Lilium; Linnaea borealis; Lonicera; Lychnis; Lycopodiaceae sp.; Lycopodium annotinum; Lycopodium clavatum; Lycopodium inundatum; Lysimachia; Lythrum; Maianthemum bifolium; Marker, added; Marker, found; Menyanthes trifoliata; Myosotis; Myricaria; Myriophyllum spicatum; Myriophyllum verticillatum; Nitraria; Nuphar; Nymphaea; Nymphoides peltata; Oxyria/Rumex subgen. Acetosa; Oxyria digyna; Palynomorpha; Papaver; Papaver argemone-type; Parnassia; Pedicularis oederi-type; Picea obovata; Pinus sibirica; Pinus sylvestris-type; Plantago indeterminata; Plantago maritima-type; Plumbaginaceae; Poaceae; Polemonium; pollen analytical standard techniques (Faegri & Iversen, 1989, Textbook Pollen); Polygonatum; Polygonum; Polygonum amphibium; Polygonum aviculare-type; Polygonum bistorta-type; Polygonum sect. Persicaria; Polygonum viviparum; Polypodium; Polystichum; Populus; Potamogeton; Potentilla-type; Primula; Prunus; Pteridium aquilinum; Pteridophyta, monolete psilate; Pteridophyta, monolete verrucate; Pteridophyta, monolete with perine; Pteridophyta, trilete indeterminata; Pulsatilla-type; Ranunculaceae; Ranunculus acris-type; Ranunculus aquatilis-type; Ranunculus flammula-type; Rhamnus; Rhinanthus-type; Rhododendron; Ribes; Riccia; Rosa; Rosaceae; Rosaceae indeterminata; Rubus-type; Rumex; Rumex acetosa-type; Rumex conglomeratus-type; Rumex obtusifolius-type; Salix; Sambucus; Sample code/label; Sample volume; Sanguisorba officinalis; Saussurea-type; Saxifraga granulata-type; Saxifraga hirsuta; Saxifraga hypnoides-type; Saxifraga oppositifolia-type; Saxifraga stellaris-type; Scirpus-type; Scorzonera-type; Scrophulariaceae; Scrophularia-type; Scutellaria; Sedum-type; Selaginella; Selaginella apoda; Selaginella helvetica; Selaginella rupestris; Selaginella sanguinolenta; Selaginella selaginoides; Serratula-type; Silene dioica-type; Solanum dulcamara-type; Sorbus; Sparganium; Spergula-type; Sphagnum; Spiraea; Sporomorphes, total; Stachys-type; Swertia; Thalictrum; Thelypteris palustris; Thymus-type; Tofieldia; Trientalis europaea; Trifolium-type; Triticum-type; Trollius; Typha angustifolia-type; Typha latifolia-type; Ulnus; Urticaceae; Utricularia; Vaccinium-type; Valeriana; Valerianaceae; Vereshchagin; Veronica-type; Woodsia-type; Xanthium-type (1)
Chiral auxiliaries (1)
DYANA (1)
Chemistry (2)
AIDS (1)

Unknown

Pollen counts of sediment core CON01-603-5 from Lake Baikal (Posolskoe site) (2004)

Demske, Dieter ; Granoszewski, Wojciech ; Heumann, Georg

PANGAEA

In: GeoForschungsZentrum Potsdam

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Publication Date: 2024-03-06

Keywords: Abies sibirica; Aconitum; Actaea; Alchemilla; Allium; Alnus hirsuta-type; Andromeda; Anemone; Anthemis-type; Apiaceae; Aquilegia sp.; Arctostaphylos; Arenaria-type; Artemisia; Asplenium ruta-muraria; Asteraceae asteroideae undifforma; Aster-type; Astragalus-type; Athyrium alpestre; Athyrium filix-femina; Bergenia crassifolia; Betula sect. Albae; Betula sect. Fruticosae; Betula sect. Nanae; Boraginaceae; Botrychium; Botrychium lunaria-type; Brassicaceae; Bupleurum; Caltha-type; Campanula-type; Caryophyllaceae indeterminata; Cassiope; Centaurea nigra-type; Centaurea scabiosa-type; Centaurea sp.; Chenopodiaceae; Chrysosplenium; Cichorioideae undifforma; Cirsium; Clematis; CON01-6; CON01-603-5; CONTINENT; Cotoneaster; Counting, palynology; Cyperaceae indeterminata; Cystopteris fragilis; Cystopteris indeterminata; DEPTH, sediment/rock; Diphasium complanatum-type; Dryas; Dryopteris carthusiana-type; Dryopteris-type; Duschekia fruticosa; Elymus-type; Empetrum nigrum; Ephedra distachya-type; Ephedra fragilis-type; Epilobium-type; Equisetum; Ericaceae indeterminata; Euphorbia; Frangula alnus; Galium-type; Gentianaceae indeterminata; Gentiana pneumonanthe-type; Gentianella campestris-type; Geum-type; Gymnocarpium dryopteris; Hedysarum; High-resolution Continental Paleoclimate Record in Lake Baikal; Hippophae; Hippuris; Humulus and Cannabis; Huperzia; Illecebrun-type; Iris germanica-type; Juniperus; KAL; Kasten corer; Knautia; Koenigia islandica; Lake Baikal, Russia; Larix; Ledum palustre; Lilium; Linnaea borealis; Lonicera; Lychnis; Lycopodiaceae sp.; Lycopodium annotinum; Lycopodium clavatum; Lycopodium inundatum; Lysimachia; Lythrum; Maianthemum bifolium; Marker, added; Marker, found; Menyanthes trifoliata; Myosotis; Myricaria; Myriophyllum spicatum; Myriophyllum verticillatum; Nitraria; Nuphar; Nymphaea; Nymphoides peltata; Oxyria/Rumex subgen. Acetosa; Oxyria digyna; Palynomorpha; Papaver; Papaver argemone-type; Parnassia; Pedicularis oederi-type; Picea obovata; Pinus sibirica; Pinus sylvestris-type; Plantago indeterminata; Plantago maritima-type; Plumbaginaceae; Poaceae; Polemonium; pollen analytical standard techniques (Faegri & Iversen, 1989, Textbook Pollen); Polygonatum; Polygonum; Polygonum amphibium; Polygonum aviculare-type; Polygonum bistorta-type; Polygonum sect. Persicaria; Polygonum viviparum; Polypodium; Polystichum; Populus; Potamogeton; Potentilla-type; Primula; Prunus; Pteridium aquilinum; Pteridophyta, monolete psilate; Pteridophyta, monolete verrucate; Pteridophyta, monolete with perine; Pteridophyta, trilete indeterminata; Pulsatilla-type; Ranunculaceae; Ranunculus acris-type; Ranunculus aquatilis-type; Ranunculus flammula-type; Rhamnus; Rhinanthus-type; Rhododendron; Ribes; Riccia; Rosa; Rosaceae; Rosaceae indeterminata; Rubus-type; Rumex; Rumex acetosa-type; Rumex conglomeratus-type; Rumex obtusifolius-type; Salix; Sambucus; Sample code/label; Sample volume; Sanguisorba officinalis; Saussurea-type; Saxifraga granulata-type; Saxifraga hirsuta; Saxifraga hypnoides-type; Saxifraga oppositifolia-type; Saxifraga stellaris-type; Scirpus-type; Scorzonera-type; Scrophulariaceae; Scrophularia-type; Scutellaria; Sedum-type; Selaginella; Selaginella apoda; Selaginella helvetica; Selaginella rupestris; Selaginella sanguinolenta; Selaginella selaginoides; Serratula-type; Silene dioica-type; Solanum dulcamara-type; Sorbus; Sparganium; Spergula-type; Sphagnum; Spiraea; Sporomorphes, total; Stachys-type; Swertia; Thalictrum; Thelypteris palustris; Thymus-type; Tofieldia; Trientalis europaea; Trifolium-type; Triticum-type; Trollius; Typha angustifolia-type; Typha latifolia-type; Ulnus; Urticaceae; Utricularia; Vaccinium-type; Valeriana; Valerianaceae; Vereshchagin; Veronica-type; Woodsia-type; Xanthium-type

Type: Dataset

Format: text/tab-separated-values, 28222 data points

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DATA PANGAEA

S·F·X

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Electronic Resource

NMR structure of the chimeric hybrid duplex r(gcaguggc)⋅r(gcca)d(CTGC) comprising the tRNA-DNA junction formed during initiation of HIV-1 reverse transcription (1999)

Szyperski, Thomas ; Götte, Matthias ; Billeter, Martin ; [et al.]

Springer

Journal of biomolecular NMR 13 (1999), S. 343-355

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ISSN: 1573-5001

Keywords: AIDS ; DYANA ; HIV-1 ; NMR structure ; ribonuclease H ; RNA-DNA hybrid ; torsion angle dynamics

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract A high-quality NMR solution structure of the chimeric hybrid duplex r(gcaguggc)⋅r(gcca)d(CTGC) was determined using the program DYANA with its recently implemented new module FOUND, which performs exhaustive conformational grid searches for dinucleotides. To ensure conservative data interpretation, the use of 1H-1H lower distance limit constraints was avoided. The duplex comprises the tRNA–DNA junction formed during the initiation of HIV-1 reverse transcription. It forms an A-type double helix that exhibits distinct structural deviations from a standard A-conformation. In particular, the minor groove is remarkably narrow, and its width decreases from about 7.5 Å in the RNA/RNA stem to about 4.5 Å in the RNA/DNA segment. This is unexpected, since minor groove widths for A-RNA and RNA/DNA hybrid duplexes of ∼11 Å and ∼8.5 Å, respectively, were previously reported. The present, new structure supports that reverse transcriptase-associated RNaseH specificity is related primarily to conformational adaptability of the nucleic acid in 'induced-fit'-type interactions, rather than the minor groove width of a predominantly static nucleic acid duplex.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008350604637

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Paper (German National Licenses)

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Electronic Resource

Remote Anisotropic Effects in Diastereomeric Esters of Fluorinated O-Aryllactic Acids (2000)

Gras, Jean-Louis ; Soto, Thierry ; Heumann, Andreas

Weinheim : Wiley-Blackwell

Liebigs Annalen 2000 (2000), S. 837-840

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ISSN: 1434-193X

Keywords: Chiral auxiliaries ; Analytical methods ; Through-space interactions ; Lactic acid ; Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: ---The enantiomeric purity of a chiral compound is determined by NMR spectroscopic analysis of the diastereomers formed with a chiral derivatizing agent. Fluorinated O-aryllactic acids (FAC) 1 are efficient chiral reporters, whose spectacular remote anisotropic effects allow an easy identification and measurement of diastereomers. The remote effects are attributed to the particular design of FAC esters relative to other CDAs.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

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Paper (German National Licenses)

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