Entwicklung und Ausbreitung des Leindotters (Camelina saliva s. 1.)

Camelina sativa s. 1. stammt aus dem SO-europäisch—SW-asiatischen Steppengebiet (Camelina microcarpa) und ist mit der Ausbreitung des Ackerbaus schon früh zum Kulturbegleiter geworden. Sie hat besonders in Anpassung an den Anbau des Leins (Linum usitatissimum) die Arten Camelina pilosa (Übergangsart) und Camelina alyssum ausgebildet. Wegen der ölreichen Samen ist die Pflanze schon in prähistorischer Zeit in Reinkultur angebaut worden, und es entwickelte sich die großsamige Art Camelina sativa s. str. Nach spätneolithischen und bronzezeitlichen Funden breitete sich der Anbau dieser Kulturpflanze von Südosten kommend in Mitteleuropa aus. In der Eisenzeit war ihre Nutzung allgemein üblich. Besonders häufig sind Fundorte der meist verkohlten Samen- und Schotenreste aus den Gebieten an der Nordseeküste bekannt geworden. Im Rheinland stammen die ältesten Funde aus der Hallstattzeit (etwa 600 v. Chr.). Noch in römischer Zeit war in diesem Gebiet der Dotteranbau weit verbreitet. Im Mittelalter hingegen hatte die Pflanze an Bedeutung verloren, wurde aber vereinzelt noch bis in unsere Zeit genutzt. Der kleinsamige Leindotter (Camelina microcarpa) ist zweimal durch Funde aus kaiserzeitlichen Siedlungen bekannt geworden. Die großen Samen von Camelina alyssum wurden nur einmal in mittelalterlichen Sedimenten gefunden.     

Effect of dietary chromium supplementation on meat nutritional quality and antioxidant status from broilers fed with Camelina-meal-supplemented diets

Poultry meat is a valuable source of nutrients and the enrichment with health-promoting substances such as polyunsaturated fatty acids (n-3 PUFA) is an important factor for consumers’ choice. Camelina meal (Camelina sativa) is an animal feedstuff used to achieve this goal, but the administration of n-3 PUFA-enriched diets in broiler nutrition can accelerate the oxidative processes in meat leading to a decreased quality of final product. The aim of this study was to investigate the effect of the organic Cr as chromium picolinate (CrPic) on meat quality, fatty acid profile of fat and oxidative stability of meat from broilers fed supplemented dietary Camelina meal. An experiment was conducted on 240 Ross 308 broiler chicken aged 14 days which were assigned to 6 dietary treatments in a randomized complete block design with a 2 × 3 factorial arrangement. Within the treatment arrangement two concentrations of Camelina meal (0% and 3%) and three concentrations of Cr³⁺ (0, 200 and 400 μg/kg) were used. Dietary treatments were: (1) Control diet (C) containing a corn–soybean diet with no added Camelina meal or Cr³⁺; (2) a C diet containing an additional 200 μg/kg of Cr³⁺ as CrPic; (3) a C diet containing an additional 400 μg/kg of Cr³⁺ as CrPic; (4) a C diet containing an additional 3% Camelina meal; (5) diet 2 containing an additional 3% Camelina meal; (6) diet 3 containing an additional 3% Camelina meal. Chromium supplementation significantly (P<0.05) increased the CP concentrations and significantly (P<0.05) decreased the crude fat concentrations in breast samples. The Camelina meal groups presented higher values of unsaturated fatty acids, particularly n-3 fatty acids (P<0.05). In CrPic groups, increased retention of Zn and Fe (P < 0.05) was observed in breast samples, compared to control group, and thiobarbituric acid reactive substances values were significantly (P<0.05) smaller. Myoglobin fraction (metmyoglobin and oximyoglobin) concentrations differ significantly (P<0.05) from the control group, under the influence of Cr³⁺ supplements. This study found that broilers fed with CrPic supplements showed improved mineral composition and oxidative stability of breast meat, proving an effective protection of lipid molecules from oxidation in PUFA-enriched meat.     

亚麻荠种植和利用的研究现状

介绍了亚麻荠(Camelina sativa(L.)Crantz)的种植历史、栽培特性、种子成分、生物学特性、栽培措施、抗病虫害能力以及对其产物的应用.亚麻荠耐旱和抗病虫草能力强的特性符合农业可持续发展的方向.作为一种低投入的经济作物,亚麻荠的种植在我国有着广阔的发展前景.     

亚麻荠种植和利用的研究现状

介绍了亚麻荠(Camelina sativa (L.) Crantz)的种植历史、栽培特性、种子成分、生物学特性、栽培措施、抗病虫害能力以及对其产物的应用。亚麻荠耐旱和抗病虫草能力强的特性符合农业可持续发展的方向。作为一种低投入的经济作物,亚麻荠的种植在我国有着广阔的发展前景。     

陕西省被子植物分布新资料

报道了陕西省种子植物分布的1新记录属、7新记录种.新记录属为亚麻荠属(十字花科),7个新记录种分别为梵净山菝葜(百合科)、鄂西小檗(小檗科)、堇叶碎米荠、亚麻荠(十字花科)、矮生栒子(蔷薇科)、长梗玄参(玄参科)及云雾忍冬(忍冬科).     

宁夏十字花科1种新记录植物

报道了宁夏十字花科1种新记录植物,小果亚麻荠(Camelina microcarpa).     

Transformation of the host-selective toxin destruxin B by wild crucifers: probing a detoxification pathway

The destruxin B detoxification pathway present in Sinapis alba is also present in three unrelated species, Camelina sativa, Capsella bursa-pastoris, and Eruca sativa, suggesting a conservation of this pathway across crucifers. The chemical structure of a destruxin B metabolite, (6'-O-malonyl)hydroxydestruxin B beta-D-glucopyranoside, was also establised. Considering that Camelina sativa and Capsella bursa-pastoris detoxify destruxin B and produce the phytoalexins camalexins, these wild crucifers appear to represent unique and perhaps useful sources of blackleg resistance in strategic plant breeding.     

Significant enhancement of fatty acid composition in seeds of the allohexaploid,Camelina sativa,using CRISPR/Cas9 gene editing

The CRISPR/Cas9 nuclease system is a powerful and flexible tool for genome editing, and novel applications of this system are being developed rapidly. Here, we used CRISPR/Cas9 to target the FAD2 gene in Arabidopsis thaliana and in the closely related emerging oil seed plant, Camelina sativa, with the goal of improving seed oil composition. We successfully obtained Camelina seeds in which oleic acid content was increased from 16% to over 50% of the fatty acid composition. These increases were associated with significant decreases in the less desirable polyunsaturated fatty acids, linoleic acid (i.e. a decrease from ~16% to <4%) and linolenic acid (a decrease from ~35% to <10%). These changes result in oils that are superior on multiple levels: they are healthier, more oxidatively stable and better suited for production of certain commercial chemicals, including biofuels. As expected, A. thaliana T₂ and T₃ generation seeds exhibiting these types of altered fatty acid profiles were homozygous for disrupted FAD2 alleles. In the allohexaploid, Camelina, guide RNAs were designed that simultaneously targeted all three homoeologous FAD2 genes. This strategy that significantly enhanced oil composition in T₃ and T₄ generation Camelina seeds was associated with a combination of germ‐line mutations and somatic cell mutations in FAD2 genes in each of the three Camelina subgenomes.     

A microspore embryogenesis protocol for <Emphasis Type="Italic">Camelina sativa,</Emphasis> a multi-use crop

Camelina [Camelina sativa (L.) Crantz], a member of the Brassicaceae family, has a unique oil profile that has potential both for biofuels and as a food crop. It is essential to have a doubled haploidy protocol in order to enhance breeding of this crop for prairie conditions as well as improve the yield and quality characteristics. Microspore-derived embryos have been produced from Camelina sativa. Buds 1–3 mm in length were selected for culture. The microspores were isolated and purified in full-strength B5 extraction medium and cultured in NLN medium with 12.5% sucrose and 12.5% polyethylene glycol 4000 (PEG) without glutamine, at a density of 10,000 microspores per mL. Glutamine was added to the cultures 72 h after extraction to give a final concentration of 0.8 g/L. The microspore cultures were maintained at 24°C in the dark. After 28 days embryos were observed and these were regenerated to plants and selfed seed was produced. The highest embryogenic frequency achieved was 38 microspore-derived embryos from 100,000 microspores.     

中国独行菜族部分属种的叶表皮观察

利用光学显微镜对中国十字花科独行菜族部分广布属及相关属植物进行了叶表皮微形态学观察研究,结果表明:所研究的中国独行菜族植物叶表皮微形态具有多样性,可以划分为两种类型:第一类,叶上下表皮同形或近同形,叶表面被单毛或光滑无毛,包括独行菜属、群心菜属、菘蓝属和菥蓂属;第二类,叶上下表皮不同形,叶表面被分支毛和单毛,包括荠属和亚麻荠属;叶表皮微形态结果支持荠属应从独行菜族中移出,独行菜族是一多系类群,同时认为荠属与亚麻荠属植物具有较近的亲缘关系。     

Selective gene dosage by CRISPR‐Cas9 genome editing in hexaploid Camelina sativa

In many plant species, gene dosage is an important cause of phenotype variation. Engineering gene dosage, particularly in polyploid genomes, would provide an efficient tool for plant breeding. The hexaploid oilseed crop Camelina sativa, which has three closely related expressed subgenomes, is an ideal species for investigation of the possibility of creating a large collection of combinatorial mutants. Selective, targeted mutagenesis of the three delta‐12‐desaturase (FAD2) genes was achieved by CRISPR‐Cas9 gene editing, leading to reduced levels of polyunsaturated fatty acids and increased accumulation of oleic acid in the oil. Analysis of mutations over four generations demonstrated the presence of a large variety of heritable mutations in the three isologous CsFAD2 genes. The different combinations of single, double and triple mutants in the T3 generation were isolated, and the complete loss‐of‐function mutants revealed the importance of delta‐12‐desaturation for Camelina development. Combinatorial association of different alleles for the three FAD2 loci provided a large diversity of Camelina lines with various lipid profiles, ranging from 10% to 62% oleic acid accumulation in the oil. The different allelic combinations allowed an unbiased analysis of gene dosage and function in this hexaploid species, but also provided a unique source of genetic variability for plant breeding.     

Intergeneric protoplast fusion between Brassica carinata and Camelina sativa

Camelina sativa is a wild crucifer that is reported to be resistant to Alternaria blight. Polyethylene glycol mediated fusion was attempted between protoplasts from etiolated hypocotyls of Brassica carinata and mesophyll protoplasts of Camelina sativa. The mean frequency of heterokaryons was 6.8%. Three hybrid shoots were regenerated, each from a single fusionderived callus. These shoots failed to produce roots capable of withstanding transplantation. Confirmation of hybridity was obtained from the morphology of in vitro produced leaves, somatic chromosome number in leaf tips, and restriction fragment length polymorphism for a nuclear rDNA probe. Analysis for organelle constitution using RFLPs indicated that the hybrid contained chrloroplasts derived from the wild species and mitochondria from the cultivated Brassica species.Abbreviations 2,4-D 2,4-dichlorophenoxy-acetic acid - IAA Indole-3-acetic acid - NAA -Naphthaleneacetic acid - IBA Indole-3-butyric acid - GA₃ gibberellic acid - BAP 6-Benzylaminopurine - MS Murashige and Skoog (1962) basal medium     

Synthesis of oleyl oleate wax esters in Arabidopsis thaliana and Camelina sativa seed oil

Seed oil composed of wax esters with long‐chain monoenoic acyl moieties represents a high‐value commodity for industry. Such plant‐derived sperm oil‐like liquid wax esters are biodegradable and can have excellent properties for lubrication. In addition, wax ester oil may represent a superior substrate for biodiesel production. In this study, we demonstrate that the low‐input oil seed crop Camelina sativa can serve as a biotechnological platform for environmentally benign wax ester production. Two biosynthetic steps catalysed by a fatty alcohol‐forming acyl‐CoA reductase (FAR) and a wax ester synthase (WS) are sufficient to achieve wax ester accumulation from acyl‐CoA substrates. To produce plant‐derived sperm oil‐like liquid wax esters, the WS from Mus musculus (MmWS) or Simmondsia chinensis (ScWS) were expressed in combination with the FAR from Mus musculus (MmFAR1) or Marinobacter aquaeolei (MaFAR) in seeds of Arabidopsis thaliana and Camelina sativa. The three analysed enzyme combinations Oleo3:mCherry:MmFAR1?c/Oleo3:EYFP:MmWS, Oleo3:mCherry:MmFAR1?c/ScWS and MaFAR/ScWS showed differences in the wax ester molecular species profiles and overall biosynthetic performance. By expressing MaFAR/ScWS in Arabidopsis or Camelina up to 59% or 21% of the seed oil TAGs were replaced by wax esters, respectively. This combination also yielded wax ester molecular species with highest content of monounsaturated acyl moieties. Expression of the enzyme combinations in the Arabidopsis fae1 fad2 mutant background high in oleic acid resulted in wax ester accumulation enriched in oleyl oleate (18:1/18:1 > 60%), suggesting that similar values may be obtained with a Camelina high oleic acid line.     

Generation of transgenic plants of a potential oilseed crop Camelina sativa by Agrobacterium-mediated transformation

Camelina sativa is an alternative oilseed crop that can be used as a potential low-cost biofuel crop or a source of health promoting omega-3 fatty acids. Currently, the fatty acid composition of camelina does not uniquely fit any particular uses, thus limit its commercial value and large-scale production. In order to improve oil quality and other agronomic characters, we have developed an efficient and simple in planta method to generate transgenic camelina plants. The method included Agrobacterium-mediated inoculation of plants at early flowering stage along with a vacuum infiltration procedure. We used a fluorescent protein (DsRed) as a visual selection marker, which allowed us to conveniently screen mature transgenic seeds from a large number of untransformed seeds. Using this method, over 1% of transgenic seeds can be obtained. Genetic analysis revealed that most of transgenic plants contain a single copy of transgene. In addition, we also demonstrated that transgenic camelina seeds produced novel hydroxy fatty acids by transforming a castor fatty acid hydroxylase. In conclusion, our results provide a rapid means to genetically improve agronomic characters of camelina, including fatty acid profiles of its seed oils. Camelina may serve as a potential industrial crop to produce novel biotechnology products.