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Plant biotechnology articles within Nature Communications

Article 20 November 2024 | Open Access

Conserved effector families render Phytophthora species vulnerable to recognition by NLR receptors in nonhost plants

Genus Phytophthora threat various plant species including fruit, vegetable, and flower crops. The authors report that some NLRs recognize conserved effector families of multiple Phytophthora species and confer broad-spectrum resistance in plant.

• , Myung-Shin Kim
•  &  Doil Choi

Article 15 November 2024 | Open Access

A single NLR gene confers resistance to leaf and stripe rust in wheat

Leaf rust and stripe rust of wheat are two important fungal diseases of cultivated wheat and they are caused by infection of different pathogens. Here, the authors report the nucleotide-binding leucine-rich repeat (NLR) protein encoding gene Yr87/Lr85 confers resistance to both diseases.

• Davinder Sharma
•  &  Amir Sharon

Article 10 November 2024 | Open Access

Multiomics dissection of Brassica napus L. lateral roots and endophytes interactions under phosphorus starvation

Based on the correlation analysis of various omics data from Brassica napus L., authors identify one Flavobacterium strain C2 which mitigates P deficiency by regulating fatty acid metabolism and enhancing P uptake, indicating potential strategies to improve P utilization in rapeseeds.

•  &  Nannan Li

Article 30 October 2024 | Open Access

A history-dependent integrase recorder of plant gene expression with single-cell resolution

Understanding gene expression patterns that underlie developmental programs can inform engineering efforts for new or optimized forms. Here, the authors engineer a four-state history-dependent integrase-based recorder of gene expression in Arabidopsis and show its application in two developmental programs.

• Cassandra J. Maranas
• , Wesley George
•  &  Sarah Guiziou

Article 27 October 2024 | Open Access

A chloroplast localized heavy metal-associated domain containing protein regulates grain calcium accumulation in rice

Calcium is essential mineral nutrient for human but how it accumulates in rice grains is largely unknown. This study identifies a chloroplast vesicle localized protein GCSC1 that regulates calcium allocation to grains via flag leaf transpiration control.

•  &  Xin-Yuan Huang

Review Article 23 October 2024 | Open Access

The role of polymers in enabling RNAi-based technology for sustainable pest management

Application of RNAi-based technology for crop pest control is hampered by the lacking of efficient system for the delivery of dsRNA molecules to pests or plants. Here, the authors review polymer systems for dsRNA delivery and provide perspectives on their application in sustainable agriculture production.

• Ana Isabel Quilez-Molina
• , Jonatan Niño Sanchez
•  &  Danila Merino

Article 09 October 2024 | Open Access

Elucidation of Spartina dimethylsulfoniopropionate synthesis genes enables engineering of stress tolerant plants

Invasive Spartina grasses accumulate high levels of intracellular dimethylsulfoniopropionate (DMSP). Here, the authors report the isolation and characterization of the genes involved in DMSP biosynthesis and show that administration of DMSP by root uptake or overexpression of the DMSP biosynthesis genes results in salinity and drought tolerance in Arabidopsis.

• Rocky D. Payet
• , Lorelei J. Bilham
•  &  J. Benjamin Miller

Article 03 October 2024 | Open Access

Natural variation in the promoter of qRBG1 / OsBZR5 underlies enhanced rice yield

A rare variation in the promoter of qRBG1/OsBZR5 is associated with larger rice grains. OsBZR5 is found to negatively regulate grain size in rice, a biological role opposite to other OsBZR members. A regulatory module of OsGSK2–qRBG1–OsBZR1–D2–OFP1 is further revealed.

• Qiuli Zhang
• , Renhong Wu
•  &  Fangming Zhao

Article 18 September 2024 | Open Access

A point mutation in VIG1 boosts development and chilling tolerance in rice

Very few genes are involved in simultaneous regulation of seedling vigor, cold tolerance and grain yield in rice. Here, the authors report OsbZIP01 and OsbZIP18 function cooperatively in determining seedling establishment, chilling tolerance, and grain yield in rice.

• Dunpin Xiong
• , Juan Wang
•  &  Shanguo Yao

Article 29 July 2024 | Open Access

Mapping the molecular landscape of Lotus japonicus nodule organogenesis through spatiotemporal transcriptomics

Legumes develop root nodules to access nitrogen. A spatial transcriptomic analysis of Lotus japonicus uncovered key molecular mechanisms and genes involved in nodule development, promoting the creation of novel nitrogen-fixing crops.

• , Fengjiao Bu
•  &  Jianshu Zheng

Article 26 July 2024 | Open Access

Dual activities of an X-family DNA polymerase regulate CRISPR-induced insertional mutagenesis across species

CRISPR-Cas9 editing outcomes were considered highly predictable. Here, authors reveal distinctive insertion profiles in plants via DNA Polymerase λ. Its dual activities modulate insertion efficiency and profiles, offering insights for species-specific precise genome editing strategies.

• Trevor Weiss
• , Jitesh Kumar
•  &  Feng Zhang

Article 18 June 2024 | Open Access

Enhanced stress resilience in potato by deletion of Parakletos

Crop production is threatening by multiple stressors. Here, the authors report the identification of a thylakoid protein encoding gene and show that knocking out this gene results in enhanced resistance to oomycete, fungi and bacteria, as well as increased tolerance to salt and drought mimics in potato.

• Muhammad Awais Zahid
• , Nam Phuong Kieu
•  &  Erik Andreasson

Article 14 June 2024 | Open Access

High performance TadA-8e derived cytosine and dual base editors with undetectable off-target effects in plants

Base editors are a powerful but underexplored tool for genetic engineering and directed evolution of plants. Here, the authors investigate the editing efficiency and specificity of TadA-8e-derived cytosine base editors and dual base editor TadDE in rice and tomato.

• Tingting Fan
• , Yanhao Cheng
•  &  Yong Zhang

Article 06 June 2024 | Open Access

Central transcriptional regulator controls photosynthetic growth and carbon storage in response to high light

Researchers identify unique transcriptional regulation that controls photosynthetic response, growth and biochemical carbon storage in high light for two variants of the same algae species, offering a glimpse into diel control of plant and crop yields.

• Seth Steichen
• , Arnav Deshpande
•  &  Lieve M. L. Laurens

Article 30 May 2024 | Open Access

An NLR paralog Pit2 generated from tandem duplication of Pit1 fine-tunes Pit1 localization and function

The paralogous NLR proteins, Pit1 and Pit2, exhibit distinct functions in rice immunity, where Pit1 induces cell death on the plasma membrane and Pit2 inhibits this function by sequestering Pit1 to the cytosol.

• , Qiong Wang
•  &  Yoji Kawano

Article 27 May 2024 | Open Access

ABA-mediated regulation of rice grain quality and seed dormancy via the NF-YB1-SLRL2-bHLH144 Module

This study revealed an NF-YB1-SLRL2-bHLH144 regulatory module, centered on a key transcription factor SLRL2, that mediates the ABA-regulated amylose content in rice. Furthermore, SLRL2 is also involved in the regulation of rice dormancy

• Jin-Dong Wang
• , Jing Wang
•  &  Qian-Feng Li

Article 08 May 2024 | Open Access

A quantitative gibberellin signaling biosensor reveals a role for gibberellins in internode specification at the shoot apical meristem

Engineering of a biosensor allows the authors to map the signaling activity of the phytohormones gibberellins (GAs) and to show that GAs orient cell division at the shoot apex to establish the organization in parallel cell files of plant stems.

• , Amelia Felipo-Benavent
•  &  Teva Vernoux

Article 26 April 2024 | Open Access

Identification of triacylglycerol remodeling mechanism to synthesize unusual fatty acid containing oils

Triacylglycerol remodeling in Physaria fendleri changes the seed oil fatty acid composition after initial synthesis to overcome metabolic bottlenecks in the accumulation of valuable unusual fatty acids. This process enhances designer oil engineering.

• Prasad Parchuri
• , Sajina Bhandari
•  &  Philip D. Bates

Article 01 March 2024 | Open Access

A genomic toolkit for winged bean Psophocarpus tetragonolobus

Winged bean is a tropical legume that can produce similar level of seed protein to soybean. Here, the authors report the genome assembly, population genetics, QTL mapping of the plant architecture, protein content and phytonutrients for this species.

• Wai Kuan Ho
• , Alberto Stefano Tanzi
•  &  Sean Mayes

Article 28 February 2024 | Open Access

Synthetic microbe-to-plant communication channels

The soil microbiome communicates with plant roots using a chemical language. Here, using p -coumaroyl-homoserine lactone as the synthetic communication signal, the authors demonstrate programmable microbe-to-plant communication from the sender in the soil bacteria to a receiver in the plant.

• , Tyler Toth
•  &  Christopher A. Voigt

Review Article 14 February 2024 | Open Access

Choreographing root architecture and rhizosphere interactions through synthetic biology

Engineering the form and function of root systems and their associated microbiota could provide a means to mitigate adverse climate-driven effects. Here, the authors review the recent developments in plant and rhizobacterial synthetic biology and highlight engineering targets for applications in root systems and rhizosphere.

• Carin J. Ragland
• , Kevin Y. Shih
•  &  José R. Dinneny

Article 06 February 2024 | Open Access

The synthetic NLR RGA5 HMA5 requires multiple interfaces within and outside the integrated domain for effector recognition

An engineered sensor NLR RGA5 HMA5 carrying multiple resurfaced interfaces was generated to confer complete resistance to the rice blast fungus strains expressing the non-corresponding effector AVR-PikD, paving a way to broaden the resistance spectra of NLRs.

•  &  You-Liang Peng

Editorial 03 January 2024 | Open Access

Feeding the future global population

Climate change is exacerbating challenges both for global food production and from its environmental impacts. Sustainable and socially responsible solutions for future world-wide food security are urgently needed.

Article 15 November 2023 | Open Access

Polyethyleneimine-coated MXene quantum dots improve cotton tolerance to Verticillium dahliae by maintaining ROS homeostasis

Verticillum wilt is an important cotton disease caused by fungal pathogen Verticillium dahiae . Here, the authors assemble the genomes of defoliating and non-defoliating isolates of the pathogen, identify virulence gene SP3 , and develop a disease control strategy using polyethyleneimine-coated MXene quantum dots.

• , Jiayue Li
•  &  Longfu Zhu

Pan-genome analysis of 13 Malus accessions reveals structural and sequence variations associated with fruit traits

A pan-genome can reduce bias in genetic diversity analysis inherent in using a single reference genome. Here, the authors assemble genomes of 10 diverse apple accessions, conduct pan-genome analysis together with three existing genomes, and reveal the role of mitogen-activated protein kinase homolog MMK2 in fruit coloration.

• , Shiyao Duan
•  &  Ting Wu

Article 14 November 2023 | Open Access

Single amino acid change alters specificity of the multi-allelic wheat stem rust resistance locus SR9

Among all wheat rust resistance genes, SR9 has the largest number of alleles. Here, the authors use gene cloning, complementation and comparative genetics to resolve the relationship among Sr9 alleles, confirm their allelic identities, and show that a single amino acid change leads to resistance to Ug99.

• Jianping Zhang
• , Jayaveeramuthu Nirmala
•  &  Evans Lagudah

Article 09 November 2023 | Open Access

Coordinated regulation of the entry and exit steps of aromatic amino acid biosynthesis supports the dual lignin pathway in grasses

The study by El-Azaz et al. uncovers how grasses fine-tune tyrosine and phenylalanine production to support their unique dual entry pathway to lignin and phenylpropanoids. The findings help improve sustainable production of aromatic chemicals in crops.

• Jorge El-Azaz
• , Bethany Moore
•  &  Hiroshi A. Maeda

Article 04 November 2023 | Open Access

Deciphering triterpenoid saponin biosynthesis by leveraging transcriptome response to methyl jasmonate elicitation in Saponaria vaccaria

Methyl jasmonate triggers saponin production in Saponaria vaccaria . Using transcriptome data and heterologous expression, the authors identify P450s and glycosyltransferases that modify triterpenoids. They also discover the pathway for UDP-D-fucose biosynthesis.

• Xiaoyue Chen
• , Graham A. Hudson
•  &  Henrik V. Scheller

Article 01 November 2023 | Open Access

Discovery of isoflavone phytoalexins in wheat reveals an alternative route to isoflavonoid biosynthesis

Isoflavones are mostly found in the legumes, and little is known about their formation outside of this family. Here, the authors discover an isoflavone synthase gene in wheat, found in a pathogen-induced gene cluster encoding isoflavone biosynthesis.

• Guy Polturak
• , Rajesh Chandra Misra
•  &  Anne Osbourn

Article 25 October 2023 | Open Access

Hidden prevalence of deletion-inversion bi-alleles in CRISPR-mediated deletions of tandemly arrayed genes in plants

The multiplex CRISPR system is the tool of choice for creating targeted tandemly arrayed genes (TAGs) deletions in plants. Here, the authors show that up to 80% of CRISPR-mediated TAG knockout alleles in Arabidopsis and rice are deletion-inversion bi-alleles, an unwanted products of targeted TAG deletions.

• , Feng-Zhu Wang
•  &  Jian-Feng Li

Article 05 October 2023 | Open Access

A natural mutation in the promoter of Ms-cd1 causes dominant male sterility in Brassica oleracea

A dominant genic male sterility (DGMS) mutant of Brassica oleracea was identified in 1970s and has been widely used for hybrid cabbage breeding, but its genetic basis is unclear. Here, the authors reveal that a 1-bp deletion in the promoter of the gene encoding a PHD-finger motif transcription factor is responsible for DGMS.

• Fengqing Han
• , Kaiwen Yuan
•  &  Honghao Lv

Article 29 September 2023 | Open Access

Efficient plant genome engineering using a probiotic sourced CRISPR-Cas9 system

In the field of plant genome engineering, new nucleases with improved editing efficiency and alterative PAM requirements are needed. Here, the authors report a probiotic sourced CRISPR-LrCas9 system with similar PAM requirement to Cas12a and show its high efficiencies in various genome editing applications.

• Zhaohui Zhong
• , Guanqing Liu

Article 08 September 2023 | Open Access

Understanding the mechanism of red light-induced melatonin biosynthesis facilitates the engineering of melatonin-enriched tomatoes

Melatonin is a physiological regulator in many organisms including plants. Here, the authors demonstrate a molecular mechanism of red light-induced melatonin biosynthesis in tomato fruit which could guide the engineering of melatonin-enriched tomatoes.

• Zixin Zhang
• , Xin Zhang
•  &  Yang Zhang

Article 24 August 2023 | Open Access

Adoption of climate-resilient groundnut varieties increases agricultural production, consumption, and smallholder commercialization in West Africa

The adoption of climate-resilient crop varieties has the potential to build farmers’ climate resilience. Here, the authors show that adoption of climate-resilient groundnut varieties in West Africa benefits all households, with the biggest gains accruing to small-scale farmers.

• Martin Paul Jr Tabe-Ojong
• , Jourdain C. Lokossou
•  &  Hippolyte D. Affognon

Article 21 August 2023 | Open Access

Characterization of two O -methyltransferases involved in the biosynthesis of O -methylated catechins in tea plant

Tea contains catechins such as (−)-epigallocatechin gallate (EGCG) which have antioxidant activity and potential health benefits. Here the authors characterise two enzymes that produce O -methylated EGCG, a modified form found in some tea cultivars that has improved bioavailability.

• Ji-Qiang Jin
• , Fu-Rong Qu
•  &  Liang Chen

Article 27 July 2023 | Open Access

A BAHD-type acyltransferase concludes the biosynthetic pathway of non-bitter glycoalkaloids in ripe tomato fruit

During tomato fruit ripening, bitter and toxic steroidal glycoalkaloids (SGAs) are converted to nonbitter and less toxic forms, but proposed acylating enzyme in pathway remain unknown. Here, authors report BAHD-type acyltransferase that catalyze acylation step in biosynthesis of non-bitter SGAs in tomato.

• Prashant D. Sonawane
• , Sachin A. Gharat
•  &  Asaph Aharoni

Article 18 July 2023 | Open Access

Manipulating microRNA miR408 enhances both biomass yield and saccharification efficiency in poplar

Modifying plant lignin pathway to enhance saccharification efficiency is often associated with growth penalty. Here, the authors show that overexpression of Pag-miR408 in poplar leads to enhanced saccharification efficiency and growth in both laboratory and field conditions, and laccase genes are the targets of Pag-miR408 .

• , Shufang Wang
•  &  Jinxing Lin

Article 13 July 2023 | Open Access

Structural journey of an insecticidal protein against western corn rootworm

The insecticidal protein Mpf2Ba1 shows potent control against corn rootworm. Here, the authors present detailed structural analyses revealing transitions between its three main stages of pore formation. These findings uncover molecular mechanisms of bacterial pore assembly and advance both crop biotechnology and food security.

• Guendalina Marini
• , Brad Poland
•  &  Helen R. Saibil

Article 08 July 2023 | Open Access

A cytochrome P450 CYP87A4 imparts sterol side-chain cleavage in digoxin biosynthesis

Digoxin is a heart medicine extracted from plants, but how plants synthesize it is largely unknown. Here Carroll et al . identify a novel enzyme for digoxin biosynthesis, paving the way to produce digoxin and other structurally similar drugs in microbes.

• Emily Carroll
• , Baradwaj Ravi Gopal
•  &  Zhen Q. Wang

Article 05 July 2023 | Open Access

Generation of the transgene-free canker-resistant Citrus sinensis using Cas12a/crRNA ribonucleoprotein in the T0 generation

Development of canker-resistant citrus cultivars via traditional approaches is a lengthy and laborious process. Here, the authors report the generation of regulatory approval, transgene-free, canker-resistant sweet orange lines using Cas12a/crRNA ribonucleoprotein-based susceptibility gene editing strategy.

• , Yuanchun Wang
•  &  Nian Wang

Article 12 June 2023 | Open Access

Regioselective stilbene O -methylations in Saccharinae grasses

O -methylated stilbenes are promising nutraceutical candidates. Here, the authors reveal that sorghum and wild sugarcane accumulate different types of O -methylated stilbenes due to major differences in catalytic regioselectivities of O -methyltransferases.

• Andy C. W. Lui
• , Kah Chee Pow
•  &  Clive Lo

Article 15 May 2023 | Open Access

Identification and improvement of isothiocyanate-based inhibitors on stomatal opening to act as drought tolerance-conferring agrochemicals

The authors describe a brassicales-specific metabolite BITC as a stomatal opening inhibitor that suppresses PM H + -ATPase phosphorylation. They develop BITC derivatives with higher inhibitory activity that act as drought tolerance–conferring agrochemicals.

• Yusuke Aihara
• , Bumpei Maeda
•  &  Toshinori Kinoshita

Article 04 May 2023 | Open Access

Chemical imaging reveals diverse functions of tricarboxylic acid metabolites in root growth and development

Chemical imaging of maize roots reveals differential patterns of TCA cycle metabolites along the axis of development. Root growth is affected in distinct ways by exogenous treatments and tissue-specific genetic manipulation of TCA metabolites.

• , Sarah E. Noll
•  &  Alexandra J. Dickinson

Article 25 April 2023 | Open Access

Engineering α-carboxysomes into plant chloroplasts to support autotrophic photosynthesis

Engineering carboxysomes into crop chloroplasts is a potential route to improve photosynthesis and crop yield. Here, the authors engineer functional CO 2 -fixing modules into tobacco chloroplasts to improve their photosynthesis and productivity.

• , Marta Hojka
•  &  Lu-Ning Liu

Article 03 April 2023 | Open Access

An integrase toolbox to record gene-expression during plant development

Synthetic circuits that can record in vivo signaling networks is critical in elucidating developmental process. Here, the authors describe the engineering and application of synthetic in vivo recorders with different promoters that can drive spatiotemporally-specific integrase switching during lateral root initiation.

• Sarah Guiziou
• , Cassandra J. Maranas
•  &  Jennifer L. Nemhauser

Article 16 March 2023 | Open Access

Efficient in planta production of amidated antimicrobial peptides that are active against drug-resistant ESKAPE pathogens

Antimicrobial peptides (AMPs) are next-generation antibiotics that can be used to combat drugresistant pathogens. Here, the authors report efficient production of bioactive amidated AMPs by transient expression in Nicotiana benthamiana line expressing the mammalian enzyme peptidylglycine α-amidating mono-oxygenase.

• Shahid Chaudhary
• , Zahir Ali
•  &  Magdy Mahfouz

Article 14 February 2023 | Open Access

Tiller Number1 encodes an ankyrin repeat protein that controls tillering in bread wheat

Tiller number is an important agronomic trait of wheat. Here, the authors clone a positive regulator of wheat tiller number and show that the encoded ankyrin repeat protein can promote tiller bud outgrowth through inhibiting ABA biosynthesis and signaling.

• Chunhao Dong
• , Lichao Zhang
•  &  Xu Liu

Article 17 January 2023 | Open Access

Complementary peptides represent a credible alternative to agrochemicals by activating translation of targeted proteins

Feeding an increasing world population in the context of climate change is one of the grand challenges faced by our generation. Here, the authors show that external application of synthetic complementary peptides can increase the abundance of target proteins to modulate plant growth or stress resistance.

• Mélanie Ormancey
• , Bruno Guillotin
•  &  Jean-Philippe Combier

Article 27 December 2022 | Open Access

High-frequency synthetic apomixis in hybrid rice

Previously, a proof-of-concept for low frequency synthetic apomixis was established in a laboratory strain of rice by combining MiMe mutations with the egg cell expression of the embryogenic trigger - BBM1 . Here, the authors achieve clonal seed formation in hybrid rice with almost full penetrance and higher fertility.

• Aurore Vernet
• , Donaldo Meynard
•  &  Emmanuel Guiderdoni

Article 02 November 2022 | Open Access

N6-methyladenosine RNA modification promotes viral genomic RNA stability and infection

Wheat production is threatened by wheat yellow mosaic virus (WYMV). Here, via genome-wide association study, the authors report that a putative methyltransferase B positively regulates WYMV infection through enhancing viral genomic RNA stability by N6-methyladenosine RNA modification.

• Tianye Zhang
• , Chaonan Shi
•  &  Jian Yang

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Recent Advances in Plant Biotechnology

• © 2009
• Ara Kirakosyan 0 ,
• Peter B. Kaufman 1

University of Michigan, Ann Arbor, U.S.A.

You can also search for this author in PubMed   Google Scholar

• Presents a full overview of plant biotechnology from the history to applications
• Approach includes associated risks and the effects of plant biotechnology on global warming, alternative energy initiatives, food production, and medicine
• Includes supplementary material: sn.pub/extras

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Plant Genetics and Molecular Biology: An Introduction

History of Plant Biotechnology Development

• agriculture
• alternative energy
• bioremediation
• biotechnology
• genetically modified plants
• herbal medicine
• herbal products
• plant biotechnology
• transgenic plants

Table of contents (16 chapters)

Front matter, plant biotechnology from inception to the present, overview of plant biotechnology from its early roots to the present.

• Ara Kirakosyan, Peter B. Kaufman, Leland J. Cseke

The Use of Plant Cell Biotechnology for the Production of Phytochemicals

• Ara Kirakosyan, Leland J. Cseke, Peter B. Kaufman

Molecular Farming of Antibodies in Plants

• Rainer Fischer, Stefan Schillberg, Richard M. Twyman

Use of Cyanobacterial Proteins to Engineer New Crops

• Matias D. Zurbriggen, Néstor Carrillo, Mohammad-Reza Hajirezaei

Molecular Biology of Secondary Metabolism: Case Study for Glycyrrhiza Plants

• Hiroaki Hayashi

Applications of Plant Biotechnology in Agriculture and Industry

New developments in agricultural and industrial plant biotechnology, phytoremediation: the wave of the future.

• Jerry S. Succuro, Steven S. McDonald, Casey R. Lu

Biotechnology of the Rhizosphere

• Beatriz Ramos Solano, Jorge Barriuso Maicas, Javier Gutierrez Mañero

Plants as Sources of Energy

• Leland J. Cseke, Gopi K. Podila, Ara Kirakosyan, Peter B. Kaufman

Use of Plant Secondary Metabolites in Medicine and Nutrition

Interactions of bioactive plant metabolites: synergism, antagonism, and additivity.

• John Boik, Ara Kirakosyan, Peter B. Kaufman, E. Mitchell Seymour, Kevin Spelman

The Use of Selected Medicinal Herbs for Chemoprevention and Treatment of Cancer, Parkinson’s Disease, Heart Disease, and Depression

• Maureen McKenzie, Carl Li, Peter B. Kaufman, E. Mitchell Seymour, Ara Kirakosyan

Regulating Phytonutrient Levels in Plants – Toward Modification of Plant Metabolism for Human Health

Risks and benefits associated with plant biotechnology, risks and benefits associated with genetically modified (gm) plants.

• Peter B. Kaufman, Soo Chul Chang, Ara Kirakosyan

Risks Involved in the Use of Herbal Products

• Peter B. Kaufman, Maureen McKenzie, Ara Kirakosyan

Risks Associated with Overcollection of Medicinal Plants in Natural Habitats

• Maureen McKenzie, Ara Kirakosyan, Peter B. Kaufman

Authors and Affiliations

Ara Kirakosyan, Peter B. Kaufman

About the authors

Bibliographic information.

Book Title : Recent Advances in Plant Biotechnology

Authors : Ara Kirakosyan, Peter B. Kaufman

DOI : https://doi.org/10.1007/978-1-4419-0194-1

Publisher : Springer New York, NY

eBook Packages : Biomedical and Life Sciences , Biomedical and Life Sciences (R0)

Copyright Information : The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature 2009

Hardcover ISBN : 978-1-4419-0193-4 Published: 30 July 2009

Softcover ISBN : 978-1-4899-7916-2 Published: 23 August 2016

eBook ISBN : 978-1-4419-0194-1 Published: 15 August 2009

Edition Number : 1

Number of Pages : XIV, 405

Topics : Plant Genetics and Genomics , Plant Sciences

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