about
Recent Advances in the Emission and Functions of Plant Vegetative VolatilesArabidopsis myrosinases link the glucosinolate-myrosinase system and the cuticleCharacterization of Shikonin Derivative Secretion in Lithospermum erythrorhizon Hairy Roots as a Model of Lipid-Soluble Metabolite Secretion from PlantsIntegrative Analyses of Nontargeted Volatile Profiling and Transcriptome Data Provide Molecular Insight into VOC Diversity in Cucumber Plants (Cucumis sativus).Isoprene research - 60 years later, the biology is still enigmatic.An Endosperm-Associated Cuticle Is Required for Arabidopsis Seed Viability, Dormancy and Early Control of Germination.Elevated carbon dioxide reduces emission of herbivore-induced volatiles in Zea mays.Molecular cloning of the tomato Hairless gene implicates actin dynamics in trichome-mediated defense and mechanical properties of stem tissuePlant Glandular Trichomes: Natural Cell Factories of High Biotechnological Interest.The evolution of hydrophobic cell wall biopolymers: from algae to angiosperms.Eco-evolutionary factors drive induced plant volatiles: a meta-analysis.Volatile and Within-Needle Terpene Changes to Douglas-fir Trees Associated With Douglas-fir Beetle (Coleoptera: Curculionidae) Attack.Small molecules below-ground: the role of specialized metabolites in the rhizosphere.Morphological, Physiological and Ultrastructural Changes in Flowers Explain the Spatio-Temporal Emission of Scent Volatiles in Polianthes tuberosa L.A comprehensive proteome map of glandular trichomes of hop (Humulus lupulus L.) female cones: Identification of biosynthetic pathways of the major terpenoid-related compounds and possible transport proteins.Emission of volatile organic compounds from petunia flowers is facilitated by an ABC transporter.CCoAOMT Down-Regulation Activates Anthocyanin Biosynthesis in Petunia.Microbial Volatiles: Small Molecules with an Important Role in Intra- and Inter-Kingdom Interactions.Releasing plant volatiles, as simple as ABC.Reconstructing vapor pressure deficit from leaf wax lipid molecular distributions.Unidirectional transitions in nectar gain and loss suggest food deception is a stable evolutionary strategy in Epidendrum (Orchidaceae): insights from anatomical and molecular evidence
P2860
Q26775151-902AD7BB-031D-4E5B-B156-035D764D016BQ28817406-1B9FFBF4-C88F-4033-AEF6-DC13DEC00758Q28828896-3E690A3D-A313-4EA4-A9C0-AB73489F704CQ31117469-C883E5C8-4409-4700-83E7-5BF0CBF6B822Q34550605-B2C1BA5C-9117-4529-8A20-BE5873FF1EBFQ35872641-043B1279-14B9-4357-9612-54874A646A96Q36354778-9AED0F4B-7547-45A9-9DEF-4549236685C5Q37308510-E6B26955-399C-452E-ABC0-E8DCDD9CB109Q38654963-F742BB86-1EC9-41AB-8A40-D4F55EB2A1F4Q38699773-E86AD1A5-D384-4EC9-AE6C-92ACDEC092BBQ38925275-2D84F0DC-C203-4E1D-8331-E26A4D0AE4E9Q39732370-4A755C5C-6818-4BB8-A46B-EC1BC2EFC018Q45055464-0F041056-9AE4-4DAF-8F29-B334A864725CQ47440503-6982293C-E3A9-40FD-836C-65C748D01E1FQ47859717-21534B52-CE2E-4503-9263-8BBF7F440F65Q47972961-A2ED16DA-3885-486F-B79A-8A772F408A05Q48096233-FF649F49-9F48-4182-B765-89CE2CED2084Q49729730-38382E6B-5AB9-416F-89F0-21B0691B9EC3Q51195672-CBC651F3-C9FE-4417-A812-0752D83FE4A2Q51411251-47CE829A-DB91-4659-8E39-361C2F907CBEQ58765735-ED4B9150-91DC-42FF-BE42-E62BD49483C5
P2860
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Rethinking how volatiles are released from plant cells.
@en
type
label
Rethinking how volatiles are released from plant cells.
@en
prefLabel
Rethinking how volatiles are released from plant cells.
@en
P1476
Rethinking how volatiles are released from plant cells
@en
P2093
John A Morgan
Rohit Jaini
P304
P356
10.1016/J.TPLANTS.2015.06.009
P577
2015-07-16T00:00:00Z