Genes, Plant

Publication Title: 
Molecular genetics and genomics: MGG

Self-incompatibility in the genus Prunus is controlled by two genes at the S-locus, S-RNase and SFB. Both genes exhibit the high polymorphism and high sequence diversity characteristic of plant self-incompatibility systems. Deduced polypeptide sequences of three myrobalan and three domestic plum S-RNases showed over 97% identity with S-RNases from other Prunus species, including almond, sweet cherry, Japanese apricot and Japanese plum. The second intron, which is generally highly polymorphic between alleles was also remarkably well conserved within these S-allele pairs.

Author(s): 
Sutherland, Bruce G.
Tobutt, Kenneth R.
Robbins, Timothy P.
Publication Title: 
Journal of Plant Physiology

Two Prunus rootstocks, the Myrobalan plum P 2175 and the interspecific peach-almond hybrid, Felinem, were studied to characterize their biochemical and molecular responses induced under iron-Deficient conditions. Plants of both genotypes were submitted to different treatments using a hydroponic system that permitted removal of Fe from the nutrient solution.

Author(s): 
Gonzalo, María José
Moreno, María Ángeles
Gogorcena, Yolanda
Publication Title: 
Plant Physiology

Root-knot nematode (RKN) Meloidogyne species are major polyphagous pests of most crops worldwide, and cultivars with durable resistance are urgently needed because of nematicide bans. The Ma gene from the Myrobalan plum (Prunus cerasifera) confers complete-spectrum, heat-stable, and high-level resistance to RKN, which is remarkable in comparison with the Mi-1 gene from tomato (Solanum lycopersicum), the sole RKN resistance gene cloned. We report here the positional cloning and the functional validation of the Ma locus present at the heterozygous state in the P.2175 accession.

Author(s): 
Claverie, Michel
Dirlewanger, Elisabeth
Bosselut, Nathalie
Van Ghelder, Cyril
Voisin, Roger
Kleinhentz, Marc
Lafargue, Bernard
Abad, Pierre
Rosso, Marie-Noëlle
Chalhoub, Boulos
Esmenjaud, Daniel
Publication Title: 
BMC biotechnology

BACKGROUND: Due to the global occurrence of multi-drug-resistant malarial parasites (Plasmodium falciparum), the anti-malarial drug most effective against malaria is artemisinin, a natural product (sesquiterpene lactone endoperoxide) extracted from sweet wormwood (Artemisia annua). However, artemisinin is in short supply and unaffordable to most malaria patients. Artemisinin can be semi-synthesized from its precursor artemisinic acid, which can be synthesized from simple sugars using microorganisms genetically engineered with genes from A. annua.

Author(s): 
Ro, Dae-Kyun
Ouellet, Mario
Paradise, Eric M.
Burd, Helcio
Eng, Diana
Paddon, Chris J.
Newman, Jack D.
Keasling, Jay D.
Publication Title: 
BMC genomics

BACKGROUND: Glandular trichomes produce a wide variety of commercially important secondary metabolites in many plant species. The most prominent anti-malarial drug artemisinin, a sesquiterpene lactone, is produced in glandular trichomes of Artemisia annua. However, only limited genomic information is currently available in this non-model plant species. RESULTS: We present a global characterization of A. annua glandular trichome transcriptome using 454 pyrosequencing.

Author(s): 
Wang, Wei
Wang, Yejun
Zhang, Qing
Qi, Yan
Guo, Dianjing
Publication Title: 
Science (New York, N.Y.)

Artemisinin is a plant natural product produced by Artemisia annua and the active ingredient in the most effective treatment for malaria. Efforts to eradicate malaria are increasing demand for an affordable, high-quality, robust supply of artemisinin. We performed deep sequencing on the transcriptome of A. annua to identify genes and markers for fast-track breeding. Extensive genetic variation enabled us to build a detailed genetic map with nine linkage groups.

Author(s): 
Graham, Ian A.
Besser, Katrin
Blumer, Susan
Branigan, Caroline A.
Czechowski, Tomasz
Elias, Luisa
Guterman, Inna
Harvey, David
Isaac, Peter G.
Khan, Awais M.
Larson, Tony R.
Li, Yi
Pawson, Tanya
Penfield, Teresa
Rae, Anne M.
Rathbone, Deborah A.
Reid, Sonja
Ross, Joe
Smallwood, Margaret F.
Segura, Vincent
Townsend, Theresa
Vyas, Darshna
Winzer, Thilo
Bowles, Dianna
Publication Title: 
PloS One

Glandular secreting trichomes (GSTs) are called biofactories because they are active in synthesizing, storing and secreting various types of plant secondary metabolites. As the most effective drug against malaria, artemisinin, a sesquiterpene lactone is derived from GSTs of Artemisia annua. However, low artemisinin content (0.001%~1.54% of dry weight) has hindered its wide application. We investigate the GST-expressed proteins in Artemisia annua using a comparative proteomics approach, aiming for a better understanding of the trichome proteome and arteminisin metabolism.

Author(s): 
Wu, Ting
Wang, Yejun
Guo, Dianjing
Publication Title: 
Genetics and molecular research: GMR

Finding an efficient and affordable treatment against malaria is still a challenge for medicine. Artemisinin is an effective anti-malarial drug isolated from Artemisia annua. However, the artemisinin content of A. annua is very low. We used transgenic technology to increase the artemisinin content of A. annua by overexpressing cytochrome P450 monooxygenase (cyp71av1) and cytochrome P450 reductase (cpr) genes. CYP71AV1 is a key enzyme in the artemisinin biosynthesis pathway, while CPR is a redox partner for CYP71AV1. Eight independent transgenic A.

Author(s): 
Shen, Q.
Chen, Y. F.
Wang, T.
Wu, S. Y.
Lu, X.
Zhang, L.
Zhang, F. Y.
Jiang, W. M.
Wang, G. F.
Tang, K. X.
Publication Title: 
International Journal of Molecular Sciences

Thapsia laciniata Rouy (Apiaceae) produces irregular and regular sesquiterpenoids with thapsane and guaiene carbon skeletons, as found in other Apiaceae species. A transcriptomic analysis utilizing Illumina next-generation sequencing enabled the identification of novel genes involved in the biosynthesis of terpenoids in Thapsia. From 66.78 million HQ paired-end reads obtained from T. laciniata roots, 64.58 million were assembled into 76,565 contigs (N50: 1261 bp). Seventeen contigs were annotated as terpene synthases and five of these were predicted to be sesquiterpene synthases.

Author(s): 
Drew, Damian Paul
Dueholm, Bjørn
Weitzel, Corinna
Zhang, Ye
Sensen, Christoph W.
Simonsen, Henrik Toft
Publication Title: 
Cancer Letters

Ashwagandha, also called as "Queen of Ayurveda" and "Indian ginseng", is a commonly used plant in Indian traditional medicine, Ayurveda. Its roots have been used as herb remedy to treat a variety of ailments and to promote general wellness. However, scientific evidence to its effects is limited to only a small number of studies. We had previously identified anti-cancer activity in the leaf extract (i-Extract) of Ashwagandha and demonstrated withanone as a cancer inhibitory factor (i-Factor).

Author(s): 
Widodo, Nashi
Takagi, Yasuomi
Shrestha, Bhupal G.
Ishii, Tetsuro
Kaul, Sunil C.
Wadhwa, Renu

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