FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2592646906> ?p ?o ?g. }

• W2592646906 abstract "Accurate floral staging is required to aid research into pollen and flower development, in particular male development. Pollen development is highly sensitive to stress and is critical for crop yields. Research into male development under environmental change is important to help target increased yields. This is hindered in monocots as the flower develops internally in the pseudostem. Floral staging studies therefore typically rely on destructive analysis, such as removal from the plant, fixation, staining and sectioning. This time-consuming analysis therefore prevents follow up studies and analysis past the point of the floral staging. This study focuses on using X-ray µCT scanning to allow quick and detailed non-destructive internal 3D phenotypic information to allow accurate staging of Arabidopsis thaliana L. and Barley (Hordeum vulgare L.) flowers. X-ray µCT has previously relied on fixation methods for above ground tissue, therefore two contrast agents (Lugol’s iodine and Bismuth) were observed in Arabidopsis and Barley in planta to circumvent this step. 3D models and 2D slices were generated from the X-ray µCT images providing insightful information normally only available through destructive time-consuming processes such as sectioning and microscopy. Barley growth and development was also monitored over three weeks by X-ray µCT to observe flower development in situ. By measuring spike size in the developing tillers accurate non-destructive staging at the flower and anther stages could be performed; this staging was confirmed using traditional destructive microscopic analysis. The use of X-ray micro computed tomography (µCT) scanning of living plant tissue offers immense benefits for plant phenotyping, for successive developmental measurements and for accurate developmental timing for scientific measurements. Nevertheless, X-ray µCT remains underused in plant sciences, especially in above-ground organs, despite its unique potential in delivering detailed non-destructive internal 3D phenotypic information. This work represents a novel application of X-ray µCT that could enhance research undertaken in monocot species to enable effective non-destructive staging and developmental analysis for molecular genetic studies and to determine effects of stresses at particular growth stages." @default.
• W2592646906 created "2017-03-16" @default.
• W2592646906 creator A5010443720 @default.
• W2592646906 creator A5022706267 @default.
• W2592646906 creator A5043983886 @default.
• W2592646906 creator A5044829451 @default.
• W2592646906 creator A5087100106 @default.
• W2592646906 date "2017-02-28" @default.
• W2592646906 modified "2023-10-18" @default.
• W2592646906 title "Non-destructive determination of floral staging in cereals using X-ray micro computed tomography (µCT)" @default.
• W2592646906 cites W1916051318 @default.
• W2592646906 cites W1926778762 @default.
• W2592646906 cites W1967974328 @default.
• W2592646906 cites W1978836391 @default.
• W2592646906 cites W1988476625 @default.
• W2592646906 cites W1998961445 @default.
• W2592646906 cites W1999411884 @default.
• W2592646906 cites W2041146847 @default.
• W2592646906 cites W2041862559 @default.
• W2592646906 cites W2050351049 @default.
• W2592646906 cites W2054317799 @default.
• W2592646906 cites W2058754065 @default.
• W2592646906 cites W2060543757 @default.
• W2592646906 cites W2067857755 @default.
• W2592646906 cites W2068957820 @default.
• W2592646906 cites W2086330580 @default.
• W2592646906 cites W2106887927 @default.
• W2592646906 cites W2108724255 @default.
• W2592646906 cites W2108990080 @default.
• W2592646906 cites W2114407989 @default.
• W2592646906 cites W2115449206 @default.
• W2592646906 cites W2118476033 @default.
• W2592646906 cites W2120689588 @default.
• W2592646906 cites W2122337052 @default.
• W2592646906 cites W2123169298 @default.
• W2592646906 cites W2132288165 @default.
• W2592646906 cites W2136081947 @default.
• W2592646906 cites W2144950892 @default.
• W2592646906 cites W2150035466 @default.
• W2592646906 cites W2240075977 @default.
• W2592646906 cites W2315674831 @default.
• W2592646906 doi "https://doi.org/10.1186/s13007-017-0162-x" @default.
• W2592646906 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5331626" @default.
• W2592646906 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28261319" @default.
• W2592646906 hasPublicationYear "2017" @default.
• W2592646906 type Work @default.
• W2592646906 sameAs 2592646906 @default.
• W2592646906 citedByCount "33" @default.
• W2592646906 countsByYear W25926469062017 @default.
• W2592646906 countsByYear W25926469062018 @default.
• W2592646906 countsByYear W25926469062019 @default.
• W2592646906 countsByYear W25926469062020 @default.
• W2592646906 countsByYear W25926469062021 @default.
• W2592646906 countsByYear W25926469062022 @default.
• W2592646906 countsByYear W25926469062023 @default.
• W2592646906 crossrefType "journal-article" @default.
• W2592646906 hasAuthorship W2592646906A5010443720 @default.
• W2592646906 hasAuthorship W2592646906A5022706267 @default.
• W2592646906 hasAuthorship W2592646906A5043983886 @default.
• W2592646906 hasAuthorship W2592646906A5044829451 @default.
• W2592646906 hasAuthorship W2592646906A5087100106 @default.
• W2592646906 hasBestOaLocation W25926469061 @default.
• W2592646906 hasConcept C120665830 @default.
• W2592646906 hasConcept C121332964 @default.
• W2592646906 hasConcept C126838900 @default.
• W2592646906 hasConcept C136229726 @default.
• W2592646906 hasConcept C163716698 @default.
• W2592646906 hasConcept C2779328170 @default.
• W2592646906 hasConcept C2780618852 @default.
• W2592646906 hasConcept C29172406 @default.
• W2592646906 hasConcept C2993665447 @default.
• W2592646906 hasConcept C46757340 @default.
• W2592646906 hasConcept C544519230 @default.
• W2592646906 hasConcept C59822182 @default.
• W2592646906 hasConcept C71924100 @default.
• W2592646906 hasConcept C86803240 @default.
• W2592646906 hasConceptScore W2592646906C120665830 @default.
• W2592646906 hasConceptScore W2592646906C121332964 @default.
• W2592646906 hasConceptScore W2592646906C126838900 @default.
• W2592646906 hasConceptScore W2592646906C136229726 @default.
• W2592646906 hasConceptScore W2592646906C163716698 @default.
• W2592646906 hasConceptScore W2592646906C2779328170 @default.
• W2592646906 hasConceptScore W2592646906C2780618852 @default.
• W2592646906 hasConceptScore W2592646906C29172406 @default.
• W2592646906 hasConceptScore W2592646906C2993665447 @default.
• W2592646906 hasConceptScore W2592646906C46757340 @default.
• W2592646906 hasConceptScore W2592646906C544519230 @default.
• W2592646906 hasConceptScore W2592646906C59822182 @default.
• W2592646906 hasConceptScore W2592646906C71924100 @default.
• W2592646906 hasConceptScore W2592646906C86803240 @default.
• W2592646906 hasFunder F4320334629 @default.
• W2592646906 hasIssue "1" @default.
• W2592646906 hasLocation W25926469061 @default.
• W2592646906 hasLocation W25926469062 @default.
• W2592646906 hasLocation W25926469063 @default.
• W2592646906 hasLocation W25926469064 @default.
• W2592646906 hasLocation W25926469065 @default.
• W2592646906 hasLocation W25926469066 @default.
• W2592646906 hasOpenAccess W2592646906 @default.
• W2592646906 hasPrimaryLocation W25926469061 @default.

• next