Structural and functional heterogeneity in the major light-harvesting complexes of higher plants by Walters, R, Horton, P

Advances in DNA methylation and its role in cytoplasmic male sterility in higher plants by Atiqur Rahman, Md. Hasan Sofiur Rahman, Md. Shakil Uddin, Naima Sultana, Shirin Akhter, Ujjal Kumar Nath, Shamsun Nahar Begum, Md. Mazadul Islam, Afroz Naznin, Md. Nurul Amin, Sharif Ahmed, Akbar Hossain

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THE IMPACT OF AUTOMOBILE POLLUTED SOIL ON SEEDLING GROWTH PERFORMANCE IN SOME HIGHER PLANTS by Muhammad KABIR, Tabinda NOREEN, Muhammad Zafar IQBAL, Muhammad SHAFIQ, Mohammad ATHAR, Zia-ur-Rehman FAROOQI

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The Coevolution of RuBisCO, Photorespiration, and Carbon Concentrating Mechanisms in Higher Plants by Peter L. Cummins

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Selection and Experimental Evaluation of Universal Primers to Study the Fungal Microbiome of Higher Plants by Silvia Scibetta, Leonardo Schena, Ahmed Abdelfattah, Sonia Pangallo, Santa O. Cacciola

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Abilities of some higher plants to hydrolyze the acetates of phenols and aromatic-aliphatic alcohols by Agnieszka Mironowicz, Krystyna Kromer, Paweł Pawłowicz, Antoni Siewiński

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Modelling physical processes in higher plants using leaf replicas for space applications by Kuzma, Joanna, Poulet, Lucie, Fontaine, Jean-Pierre, Dussap, Claude-Gilles

“…In the future, higher plant cultivation will be a key component of Bioregenerative Life-Support Systems. …”
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New insight into the taxonomy of Cephaloziellaceae (Marchantiophyta): the family of the smallest higher plants on Earth by Vadim A. Bakalin, Yulia D. Maltseva, Ksenia G. Klimova, Van Sinh Nguyen, Seung Se Choi, Aleksey V. Troitsky

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Higher plant cytochrome b5 polypeptides modulate fatty acid desaturation. by Rajesh Kumar, Lam-Son Phan Tran, Anjanasree K Neelakandan, Henry T Nguyen

“…BACKGROUND: Synthesis of polyunsaturated fatty acids (PUFAs) in the endoplasmic reticulum of plants typically involves the fatty acid desaturases FAD2 and FAD3, which use cytochrome b(5) (Cb5) as an electron donor. Higher plants are reported to have multiple isoforms of Cb5, in contrast to a single Cb5 in mammals and yeast. …”
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Acquisition and Homeostasis of Iron in Higher Plants and Their Probable Role in Abiotic Stress Tolerance by Durgesh K. Tripathi, Durgesh K. Tripathi, Shweta Singh, Shweta Gaur, Swati Singh, Vaishali Yadav, Shiliang Liu, Vijay P. Singh, Shivesh Sharma, Shivesh Sharma, Prateek Srivastava, Sheo M. Prasad, Nawal K. Dubey, Devendra K. Chauhan, Shivendra Sahi

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Nitric Oxide (NO) Scaffolds the Peroxisomal Protein–Protein Interaction Network in Higher Plants by Francisco J. Corpas, Salvador González-Gordo, José M. Palma

“…The peroxisome is a single-membrane subcellular compartment present in almost all eukaryotic cells from simple protists and fungi to complex organisms such as higher plants and animals. Historically, the name of the peroxisome came from a subcellular structure that contained high levels of hydrogen peroxide (H₂O₂) and the antioxidant enzyme catalase, which indicated that this organelle had basically an oxidative metabolism. …”
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HY5: A Pivotal Regulator of Light-Dependent Development in Higher Plants by Yuntao Xiao, Li Chu, Yumeng Zhang, Yeting Bian, Jiahui Xiao, Dongqing Xu

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Protein tyrosine nitration in higher plants grown under natural and stress conditions by Francisco J Corpas, José M Palma, Luis A del Río, Juan B Barroso

“…In this work, the current knowledge of protein tyrosine nitration in higher plants under different situations is reviewed.…”
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PIFs- and COP1-HY5-mediated temperature signaling in higher plants by Yeting Bian, Li Chu, Huan Lin, Yaoyao Qi, Zheng Fang, Dongqing Xu

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Editorial: Genetic and epigenetic regulatory mechanisms in higher plants in response to abiotic stress by Jemaa Essemine, Mokhtar Guerfel, Mingnan Qu

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Comparative analysis of predicted plastid-targeted proteomes of sequenced higher plant genomes. by Scott Schaeffer, Artemus Harper, Rajani Raja, Pankaj Jaiswal, Amit Dhingra

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Nitric Oxide and Hydrogen Sulfide in Higher Plants under Physiological and Stress Conditions by Francisco J. Corpas

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Litter chemistry explains contrasting feeding preferences of bacteria, fungi, and higher plants by Giuliano Bonanomi, Gaspare Cesarano, Nadia Lombardi, Riccardo Motti, Felice Scala, Stefano Mazzoleni, Guido Incerti

“…Our study showed that plant litter has specific and contrasting effects on bacteria, fungi and higher plants, highlighting that, in order to understand the effects of plant detritus on ecosystem structure and functionality, different microbial food web components should be simultaneously investigated.…”
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Identification of proton-active residues in a higher plant light-harvesting complex. by Walters, R, Ruban, A, Horton, P

“…The thermal dissipation of absorbed light energy by the light-harvesting apparatus of higher plants is important in protecting the photosynthetic machinery from the effects of excess illumination. …”

An annotated checklist of higher plants in Ayer Hitam Forest Reserve, Puchong, Selangor by Ibrahim, Faridah Hanum, Ibrahim, A. Zainuddin, Khamis, Shamsul, Saleh, Mohd Nazre, Lepun, Philip

“…Our expedition, from 2-5 May 2000 involved a few botanists who observed and collected specimens of higher plants. The enumeration provided here is based only on the specimens collected during the expedition, includes 262 species of vascular plants belonging to 142 genera and 56 families: The Myrtaceae, with 22 species is the largest family in the checklist, followed by Euphorbiaceae, Dipterocarpaceae and Annonaceae with 21, 17 and 14 species, respectively. …”
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