Molecular Analysis of Genes Involved in the Biosynthesis of Very Long Chain Polyunsaturated Fatty Acids (VLCPUFAs)

2012 June 1900

The effective acyl flux between phospholipids and neutral lipids is critical for a high level of the biosynthesis of very long chain polyunsaturated fatty acids (VLCPUFAs) such as arachidonic acid (ARA,20:4-5,8,11,14), eicosapentaenoic acid (EPA, 20:5-5,8,11,14,17) and docosahexaenoic acid (DHA, 22:6-4,7,10,13,16,19) which are essential for human health and wellbeing. Three membrane-bound enzymes, phosphatidylcholine:diacylglycerol cholinephosphotransferase (PDCT), cholinephosphotransferase (CPT) and ethanolaminephosphotransferase (EPT) from VLCPUFA-producing fungi were selected as candidates for my thesis research based on the hypothesis that these enzymes play important roles in acyl trafficking between phosphatidylcholine (PCs) and diacylglycerols (DAGs) during the biosynthesis of VLCPUFAs. Two putative PDCT cDNAs (PiPDCT1 and PiPDCT2) were cloned from Phytophthora infestans which encode polypeptides with two conserved domains and about 15% of amino acid identity to an Arabidopsis PDCT. However, in vitro assays in yeast Saccharomyces cerevisiae showed they did not have any PDCT activity. Four putative CPT and EPT cDNAs (PiCPT1, PiCPT2, PiEPT and TaCPT) were cloned from P. infestans and Thraustochytrium aureum which encode proteins with a conserved CDP-alcohol phosphotransferase motif and 22% to 26% of amino acid identity to the yeast CPT. In vitro assays indicated PiCPT1 and TaCPT had CPT activity, PiEPT had EPT activity and PiCPT2 did not have either activity. Substrate specificity assays showed that all the three functional CPT and EPT preferred VLCPUFA-containing DAGs as substrates with PiCPT1 being the most specific towards ARA-DAG and DHA-DAG. Real-time qPCR analysis revealed that the expression of PiCPT1 was up-regulated in P. infestans fed with exogenous VLCPUFAs. These results lead us to conclude that PiCPT1 is a VLCPUFAs-specific CPT which may play an important role in shuffling VLCPUFAs from phospholipids to storage neutral lipids, would thus have potential use in metabolic engineering of VLCPUFAs in heterologous systems including oilseed crops.

Cholinephosphotransferase

Cloning and functional analysis of the genes from entomopathogenic fungi involved in the biosynthesis of eicosatetraenoic acid (ETA)

Tan, Li C

20 August 2010

Very long chain polyunsaturated fatty acids (VLCPUFAs) such as arachidonic acid (ARA, 20:4ù6), eicosapentaenoic acid (EPA, 20:5ù3) and docosahexaenoic acid (DHA, 22:6ù3) have been shown to have many health benefits, some of which include lowering blood pressure, providing protection against cardiovascular diseases and improving brain and eye functions. Entomopathogenic fungi, a group of fungal pathogens able to infect insects, were previously reported to produce substantial amounts of VLCPUFAs, however the genes involved in the biosynthesis of these fatty acids have yet to be identified. This research started with fatty acid analysis of five entomopathagenic fungi, of which Conidiobolus obscurus and Conidiobolus thromboides were found to produce high levels of VLCPUFAs such as ARA and EPA. Thus, these two fungal species were selected as potential gene sources for the enzymes involved in the biosynthesis of VLCPUFAs. Using degenerate reverse transcriptase-polymerase chain reaction (RT-PCR) and rapid amplification of the cDNA ends (RACE) methods; we cloned two full-length putative ∆6 desaturase cDNAs (CoD6 and CtD6) from the two fungi.<p> Functional expression of CoD6 in Saccharomyces cerevisiae showed it codes for a functional Ä6 desaturase, which can introduce a Ä6 double bond into linoleic acid and á-linolenic acid, respectively. However, expression of CtD6 in S. cerevisiae showed it does not have any Ä6 desaturase activity. Using degenerate RT-PCR and RACE, we also cloned two full-length ∆6 elongase cDNAs (CoE6 and CtE6) from the C. obscurus and C. thromboides species. Functional expression of these genes in S. cerevisiae showed CoE6 and CtE6 code for functional ∆6 elongase. Substrate specificity analysis indicated that both preferentially elongate 18-carbon Ä6 desaturated fatty acids, such as ã-linolenic acid and stearidonic acid. In addition, CtE6 can also elongate 20-carbon VLCPUFAs, such as ARA and EPA. The entire eicosatetraenoic acid (ETA, 20:4ù3) biosynthetic pathway was reconstituted in yeast using four genes, CoD6 (a ∆6 desaturase) and CoE6 (a ∆6 elongase) from Conidiobolus obscurus, CpDes12 (a Ä12 desaturase) and CpDesX (a ù3 desaturase) from Claviceps purpurea. Yeast transformant expressing the four genes produced several new fatty acids. Among them, eicosatetraenoic acid (ETA) accounts for approximately 0.1% of the total fatty acids. Although the level of ETA in the transformant is low, this represents the first report describing the reconstitution of the entire ETA pathway in yeast without exogenous supplementation of any fatty acids.

Conidiobolus thromboides

Eicosatetraenoic acid

Conidiobolus obscurus

Cloning and functional analysis of the genes from entomopathogenic fungi involved in the biosynthesis of eicosatetraenoic acid (ETA)

Tan, Li C

20 August 2010

Very long chain polyunsaturated fatty acids (VLCPUFAs) such as arachidonic acid (ARA, 20:4ù6), eicosapentaenoic acid (EPA, 20:5ù3) and docosahexaenoic acid (DHA, 22:6ù3) have been shown to have many health benefits, some of which include lowering blood pressure, providing protection against cardiovascular diseases and improving brain and eye functions. Entomopathogenic fungi, a group of fungal pathogens able to infect insects, were previously reported to produce substantial amounts of VLCPUFAs, however the genes involved in the biosynthesis of these fatty acids have yet to be identified. This research started with fatty acid analysis of five entomopathagenic fungi, of which Conidiobolus obscurus and Conidiobolus thromboides were found to produce high levels of VLCPUFAs such as ARA and EPA. Thus, these two fungal species were selected as potential gene sources for the enzymes involved in the biosynthesis of VLCPUFAs. Using degenerate reverse transcriptase-polymerase chain reaction (RT-PCR) and rapid amplification of the cDNA ends (RACE) methods; we cloned two full-length putative ∆6 desaturase cDNAs (CoD6 and CtD6) from the two fungi.<p> Functional expression of CoD6 in Saccharomyces cerevisiae showed it codes for a functional Ä6 desaturase, which can introduce a Ä6 double bond into linoleic acid and á-linolenic acid, respectively. However, expression of CtD6 in S. cerevisiae showed it does not have any Ä6 desaturase activity. Using degenerate RT-PCR and RACE, we also cloned two full-length ∆6 elongase cDNAs (CoE6 and CtE6) from the C. obscurus and C. thromboides species. Functional expression of these genes in S. cerevisiae showed CoE6 and CtE6 code for functional ∆6 elongase. Substrate specificity analysis indicated that both preferentially elongate 18-carbon Ä6 desaturated fatty acids, such as ã-linolenic acid and stearidonic acid. In addition, CtE6 can also elongate 20-carbon VLCPUFAs, such as ARA and EPA. The entire eicosatetraenoic acid (ETA, 20:4ù3) biosynthetic pathway was reconstituted in yeast using four genes, CoD6 (a ∆6 desaturase) and CoE6 (a ∆6 elongase) from Conidiobolus obscurus, CpDes12 (a Ä12 desaturase) and CpDesX (a ù3 desaturase) from Claviceps purpurea. Yeast transformant expressing the four genes produced several new fatty acids. Among them, eicosatetraenoic acid (ETA) accounts for approximately 0.1% of the total fatty acids. Although the level of ETA in the transformant is low, this represents the first report describing the reconstitution of the entire ETA pathway in yeast without exogenous supplementation of any fatty acids.

Conidiobolus thromboides

Eicosatetraenoic acid

Conidiobolus obscurus

IMPROVING LARVAL SUNSHINE BASS PRODUCTION THROUGH SUPPLEMENTATION OF FEMALE WHITE BASS BROODSTOCK DIETS WITH LONG-CHAIN POLYUNSATURATED FATTY ACIDS

Lewis, Heidi A.

01 May 2010

Feeds that maximize reproductive potential are needed to ensure success of captive broodstock. Nutritional requirements for somatic growth of juvenile fishes differ from nutritional requirements of mature fishes and are largely species-specific. Broodstock nutritional research has focused primarily on lipid and fatty acid requirements and their effects on reproductive conditioning due to the importance of these nutrients in providing metabolic energy and structural elements, i.e. for phospholipids for embryonic development. Development of suitable broodstock feeds are limited by not knowing fatty acid requirements for many species. Once requirements are identified, plant, grain, marine, algal, and fungal lipid sources can be blended to develop least-cost diet formulations. The objectives of this dissertation are to (1) evaluate white bass Morone chrysops ovum fatty acid composition and reproductive performance after feeding maternal broodstock graded levels of squid to fish oil; (2) evaluate flax, canola, and corn oils as alternatives to marine oil(s) in white bass maternal broodstock diets; (3) determine extent to which grain oils can replace marine oils in female white bass broodstock diets in order to maintain reproductive performance and quantify fatty acid utilization of larvae with different initial fatty acid profiles; and (4) assess dietary supplementation of 20:4n-6, 20:5n-3, and 22:6n-3 concentrates to boost reproductive performance of female white bass fed primarily plant oil-based lipid sources. Of the marine and plant oils tested, menhaden fish oil provided female white bass broodstock the fatty acids (~3.9% n-3 long-chain polyunsaturated fatty acids; LC-PUFA; dry matter basis) necessary to maximize embryonic survival; however, flax oil, due to its low 18:2n-6 and high 18:3n-3 content, showed promise as a suitable plant oil candidate for partial if not complete marine oil substitution in female white bass broodstock feeds. Differential responses in embryonic and larval survival resulted in comparable total larval yields at 5 days post hatch (DPH) after feeding female broodstock graded levels (0, 33, 67, or 100%) flax to fish oils for 30 weeks prior to spawning. At the end of the endogenous feeding period, fatty acid compositions of flax and fish oil-fed broodstock progeny deviated from initial ova composition. Although n-3 LC-PUFA from menhaden fish oil are essential for embryonic survival, sunshine bass appear to have lower n-3 LC-PUFA requirements after hatch. Larval survival was highly dependent on the presence of C18 PUFA present due to flax oil inclusion in maternal diets. Embryonic survival of progeny produced from broodstock fed dietary saturated fatty acid-rich plant lipids supplemented with intact LC-PUFA concentrates (~3.4% n-3 LC-PUFA; dry matter basis) was similar to that of the broodstock fed the menhaden fish oil control diet containing 4.8% n-3 LC-PUFA. Although the dietary requirement for n-3 LC-PUFA was reduced by feeding these LC-PUFA concentrates in combination with plant lipids, menhaden fish oil is still the most viable option for least cost broodstock diet formulations intended for white bass.

Long-chain polyunsaturated fatty acids

nutrition

reproduction

sunshine bass

White bass

La synthèse et/ou la lipoperoxydation des acides gras polyinsaturés à très longue chaîne n-3 sont-elles les étapes limitantes de leur dépôt musculaire chez le bovin ? / Are synthesis and/or lipoperoxydation of n-3 very long chain polyunsaturated fatty acids limiting steps for their content in muscles of bovine ?

Cherfaoui, Maya

24 October 2012

Dans une stratégie de diversification des apports en acides gras polyinsaturés très longue chaîne n-3 (AGPI TLC n-3), essentiels à la santé de l'Homme et majoritairement apportés par les produits de la mer, l'objectif de la thèse était de mieux comprendre les mécanismes cellulaires pouvant expliquer la faible teneur en AGPI TLC n-3 présente dans le muscle de bovin, ceci en explorant trois voies métaboliques de ces acides gras potentiellement limitantes (biosynthèse, captage facilité et peroxydation non-enzymatique) par des approches de qPCR ou de transcriptomique. Les principaux résultats montrent que le foie et les muscles de bovin possèdent tout le matériel génétique nécessaire à la synthèse des AGPI TLC n-3 et pourraient donc assurer leur synthèse, sauf chez le mâle entier où l'expression du gène de l'élongase 5 est réprimée par la présence d'hormones sexuelles mâles. D'autre part, les teneurs musculaires en AGPI TLC n-3 plus élevées avec un régime base d'herbe par rapport à de l'ensilage de maïs et dans un muscle glycolitique par rapport à un muscle oxydatif ne semblent pas s'expliquer par une modulation de l'expression des gènes impliqués dans leur biosynthèse, ni dans leur captage facilité et dans la régulation endogène de leur lipoperoxydation. En conclusion, ce travail de thèse a permis de considérablement faire progresser la compréhension des mécanismes impliqués dans la régulation des dépôts d'AGPITLC n-3 dans les muscles de bovin. Toutefois, ces régulations sont certainement plus complexes et probablement multifactorielles. De nombreuses pistes restent encore à explorer avant d'envisager augmenter la teneur en AGPI TLC n-3 dans la viande bovine. / N-3 very long chain polyunsaturated fatty acids (n-3 VLC PUFA) are essential for human health but are almost exclusively present in seafood. Thus, in a strategy of diversification of n-3 VLC PUFA sources for human, the aim of this thesis was to better understand the cellular mechanisms that may explain the low n-3 VLC PUFA content in bovine muscle, by exploring three potentially limiting metabolic pathways of these fatty acids (biosynthesis, facilited uptake and non-enzymatic peroxidation) by qPCR or transcriptomic approaches. The main results indicate that the liver and muscles of cattle possess all the genetic material necessary for the synthesis of n-3 VLC PUFA and may therefore ensure their synthesis, except in entire males where gene expression of the elongase 5 is suppressed by the presence of male sex hormones. On the other hand, the higher n-3 VLC PUFA content in muscle of cattle with a grass based diet compard to corn silage and in glycolytic muscle compared to oxidative muscle do not seem to be explained by a modulation of gene expression of proteins involved in their biosynthesis or in their facilited uptake or in the endogenous regulation of their lipoperoxidation. In conclusion, this thesis has greatly advance our understanding of mechanisms involved in the regulation of n-3 VLC PUFA deposits in muscles of cattle. However, these regulations are certainly more complex and probably multifactorial. Many tracks remain to be explored before considering increasing n-3 VLC PUFA content in beef.

Bovin

Muscle

Synthèse

Captage facilité

Lipoperoxydation

Bovine

Muscle

Synthesis

Facilited uptake

Lipoperoxidation

The production of VLCPUFAs in plants / Die Produktion von VLCPUFAs in Pflanzen

Ahmann, Katharina

24 January 2011

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

Acyltransferase

Desaturase

Gentechnologie

Mikroalgen

<i>Ostreococcus tauri</i>

acyltransferase

desaturase

genetic engineering

microalgae

<i>Ostreococcus tauri</i>

42.13

WF 400: Gentechnologie

Apports nutritionnels en acides gras polyinsaturés n-3 et action cellulaire de la vitamine A : effets sur la plasticité cérébrale et la mémoire spatiale chez le rat agé / N-3 polyunsaturated fatty acids intakes and cellular action of vitamin A : effects on cerebral plasticity and spatial memory in aged rats

Commere Oustric, Julie

17 December 2010

Les acides gras polyinsaturés à longue chaîne (AGPI-LC) de la série n-3 jouent des rôles essentiels dans le fonctionnement du cerveau et notamment dans les processus de plasticité synaptique et de mémoire, altérés au cours du vieillissement. Il est maintenant bien admis que ces AGPI peuvent réguler la transcription génique en se liant à des récepteurs nucléaires spécifiques, les PPAR (peroxisome proliferator-activated receptors), mais aussi aux récepteurs de l’acide 9-cis rétinoïque, les RXR (retinoid X receptors). En tant que partenaires communs d’hétérodimérisation des PPAR et des RAR (récepteurs de l’acide tout-trans rétinoïque), les RXR sont des acteurs clés de la modulation de l’expression génique par les acides gras et les rétinoïdes. Dans ce contexte, l’objectif de ce travail de thèse était d’étudier, au cours du vieillissement chez le rat, les effets d’une supplémentation en AGPI-LC n-3 sur l’activité des voies de signalisation des acides gras et des rétinoïdes, les processus de plasticité cérébrale (plasticité synaptique et neurogenèse) et la mémoire spatiale. Nos principaux résultats montrent qu’une supplémentation en AGPI-LC n-3, pendant 21 semaines chez des rats à mi-vie, maintient dans l’hippocampe les niveaux d’expression des ARNm codant pour RXRγ et GAP-43 (protéine synaptique) altérés au cours du vieillissement. De plus les rats âgés supplémentés en AGPI-LC n-3 présentent une augmentation du nombre de néo-neurones hippocampiques et une amélioration de la mémoire spatiale de travail, comparés aux rats âgés contrôle. Les résultats de cette étude plaident en faveur d’un effet bénéfique des AGPI-LC n-3 sur la mémoire de travail au cours du vieillissement via notamment, une action sur la plasticité cérébrale. De plus, nos travaux suggèrent l’implication des RXR dans l’effet neuroprotecteur des AGPI-LC n-3, qui réguleraient l’expression de certains gènes cibles impliqués dans la plasticité synaptique et les processus de neurogenèse hippocampique. / Long chain polyunsaturated fatty acids (LC-PUFA) of the n-3 series play essential roles in brain functions, including brain plasticity and memory processes which are altered during aging. It is now well accepted that these PUFA regulate gene transcription through binding and activating specific nuclear receptors such as PPAR (peroxisome proliferator-activated receptors) and RXR (retinoid X receptors, which also bind 9-cis retinoic acid). As a common heterodimeric partner of both PPAR and RAR (all-trans retinoic acid receptors), RXR is a key factor in the modulation of gene expression by fatty acids and retinoids. In this context, the purpose of this work was to study the effects of a n-3 LC-PUFA supplementation on fatty acid and retinoid signalling pathways and on cerebral plasticity and spatial memory processes. Our main results show that n-3 LC-PUFA supplementation for 21 weeks in mid-life rats, maintains the mRNA levels of RXRγ and GAP-43 (synaptic protein) which were altered in aged rat hippocampus. Besides, supplemented aged rats exhibited increased numbers of newly generated neurons and improved spatial working memory, when compared with control aged rats. To summarize, our results support the neuroprotective effects of n-3 LC-PUFA during aging, in particular on cerebral plasticity and working memory. Furthermore, our works suggest the implication of RXR in the set up of these effects through notably the regulation of some target genes involved in synaptic plasticity and hippocampal neurogenesis processes.

Acide rétinoïque

Récepteurs nucléaires

Vieillissement

Plasticité synaptique

Neurogenèse hippocampique

Mémoire spatiale

Retinoic acid

Nuclear receptors

Aging

Synaptic plasticity

Hippocampal neurogenesis

Spatial memory

Assessing EPA + DHA requirements of Sparus aurata and Dicentrarchus labrax : impacts on growth, composition and lipid metabolism

Houston, Sam James Silver

January 2018

The gilthead seabream (Sparus aurata) and European seabass (Dicentrarchus labrax) require n-3 long-chain polyunsaturated fatty acids (LC-PUFA), eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), for optimal growth and health. Due to the rapid growth of global aquaculture the quantity of marine oils used in aquafeeds has been limited, yet the overall quantity of oil in an aquafeed has increased by the addition of vegetable oil (VO) to supply dietary energy. For aquaculture to continue to grow more fish must be produced with less marine ingredients, yet EPA and DHA must be maintained at levels above fish requirements. This project set out to re-evaluate the requirement for EPA and DHA in gilthead seabream and European seabass. Two dose-response studies were designed and executed where juvenile seabream and seabass were fed one of six levels of EPA+DHA (0.2 – 3.2 % as fed). Biometric data were collected and analysed to determine new requirement estimates for EPA+DHA for fish of two weight ranges (24 – 80 g and 80 – 200 g). The effects of the dietary LC-PUFA gradient on lipid composition and metabolism were also considered.

Biosíntesis de ácidos grasos poliinsaturados de cadena larga en gamáridos

Ribes Navarro, Alberto

21 June 2025

Tesis por compendio / [ES] El rápido crecimiento de la acuicultura ha generado una serie de problemas relacionados con la disponibilidad de ingredientes marinos esenciales en la alimentación de peces, debido a su alto contenido en ácidos grasos poliinsaturados de cadena larga (LC-PUFAs) omega-3. Una estrategia altamente innovadora para la obtención de nuevos ingredientes ricos en LC-PUFAs, consiste en el cultivo intensivo de organismos que sean capaces de producirlos a partir de fuentes que carecen de éstos, como son los subproductos de industrias agroalimentarias. Este enfoque requiere entender la capacidad biosintética del organismo en cuestión, y cómo ésta se puede modular para aumentar la acumulación de estos compuestos. Esta Tesis Doctoral plantea una serie de estudios dirigidos a esclarecer el potencial de los gamáridos para aplicar esta estrategia. La biosíntesis de LC-PUFAs en animales requiere de la acción coordinada de enzimas elongasas y desaturasas, implicadas en la conversión de ácidos grasos relativamente cortos y poco insaturados, en LC-PUFAs de alto valor nutricional. Así pues, esta Tesis Doctoral ha investigado, por un lado, la presencia y la actividad de genes involucrados en la biosíntesis de LC-PUFAs en gamáridos tanto marinos como dulceacuícolas. Por otro lado, ha estudiado cómo diferentes dietas y temperaturas afectan al metabolismo de ácidos grasos, crecimiento y supervivencia, en el gamárido marino Gammarus locusta, tanto a nivel fisiológico y composicional, como a nivel molecular. Los resultados de la primera parte demuestran que los gamáridos tienen varias elongasas, pero carecen de desaturasas. Se identificaron tres tipos de elongasas (elovl4, elovl6, y elovl1/7-like) en el gamárido marino Echinogammarus marinus, siendo elovl4 y elovl1/7-like clave para la elongación de LC-PUFAs. Este mismo patrón de elongasas se repite también para los gamáridos dulceacuícolas. Sorprendentemente, se han encontrado desaturasas front-end (fed), methyl-end (wx-des), y una elongasa del tipo Elovl2/5 únicamente en transcriptomas de gamáridos dulceacuícolas. Posteriores análisis moleculares y filogenéticos han podido determinar que estas secuencias fed, wx-des, y elovl2/5 son propias de rotíferos bdeloideos, epibiontes de gamáridos dulceacuícolas. Estos hallazgos, más allá de apuntar el potencial biosintético de los rotíferos bdeloideos, revela una relación constante entre éstos y los gamáridos en ecosistemas dulceacuícolas. La segunda parte de la Tesis analiza cómo dieta y temperatura modulan el metabolismo de ácidos grasos, crecimiento y supervivencia en Gammarus locusta. Los resultados han mostrado que G. locusta experimenta un mayor crecimiento, aunque también mayores tasas de mortalidad, cuando se cultiva a temperaturas elevadas. La mortalidad en G. locusta también aumenta cuando este se alimenta con una dieta rica en ácidos grasos saturados (SFAs) y carente de LC-PUFAs. Los perfiles de ácidos grasos en gamáridos reflejan las dietas consumidas, independientemente de la temperatura; aunque cabe destacar que los gamáridos alimentados con dietas carentes de LC-PUFAs conservan niveles apreciables de estos compuestos en sus lípidos corporales. A nivel molecular, una dieta sin LC-PUFAs y rica en SFAs disminuye el catabolismo de ácidos grasos y favorece su acumulación modulando la expresión de genes involucrados en estos procesos. Además, estas mismas condiciones afectan negativamente el desarrollo y supervivencia al influir en genes relacionados con el ciclo de muda. Además, se ha observado que temperaturas altas aceleran el desarrollo e incrementan la mortalidad. Según estos resultados, puede concluirse que las temperaturas elevadas y dietas carentes de LC-PUFAs no son adecuadas para el cultivo de G. locusta cuando el objetivo final es la obtención de biomasa rica en estos compuestos, ya que dichas condiciones afectan negativamente al perfil nutricional del animal y a su supervivencia. / [CA] El ràpid creixement de l'aqüicultura ha generat una sèrie de problemes relacionats amb la disponibilitat d'ingredients marins essencials en l'alimentació de peixos, a causa del seu alt contingut en àcids grassos poliinsaturats de cadena llarga (LC-PUFAs) omega-3. Una estratègia altament innovadora per a l'obtenció de nous ingredients rics en LC-PUFAs, consistix en el cultiu intensiu d'organismes que siguen capaços de produir-los a partir de fonts que no els ténen, com són els subproductes d'indústries agroalimentàries. Aquesta estratègia requerix entendre la capacitat biosintètica de l'organisme en qüestió, i com aquesta es pot modular per a augmentar l'acumulació d'estos compostos. Esta Tesi Doctoral planteja una sèrie d'estudis dirigits a esclarir el potencial dels gammàrids per a aplicar esta estratègia. La biosíntesi de LC-PUFAs en animals requerix de l'acció coordinada d'enzims elongases i desaturases, implicats en la conversió d'àcids grassos relativament curts i poc insaturats, en LC-PUFAs d'alt valor nutricional. Així doncs, esta Tesi Doctoral ha investigat, d'una banda, la presència i l'activitat de gens involucrats en la biosíntesi de LC-PUFAs en gammàrids tant marins com dulciaqüícoles. D'altra banda, ha estudiat com diferents dietes i temperatures afecten el metabolisme d'àcids grassos, creixement i supervivència, en el gammàrid marí Gammarus locusta, tant a nivell fisiològic i composicional, com a nivell molecular. Els resultats de la primera part demostren que els gammàrids ténen diverses elongases, però manquen de desaturases. Es van identificar tres tipus d'elongases (elovl4, elovl6, i elovl1/7-like) en el gammàrid marí Echinogammarus marinus, sent elovl4 i elovl1/7-like clau per a l'elongació de LC-PUFAs. Este mateix patró d'elongases es repetix també per als gammàrids dulciaqüícoles. Sorprenentment, s'han trobat desaturases front-end (fed), methyl-end (wx-des), i una elongasa del tipus Elovl2/5 únicament en transcriptomes de gammàrids dulciaqüícoles. Posteriors anàlisis moleculars i filogenètics han pogut determinar que estes seqüències fed, wx-des, i elovl2/5 són pròpies de rotífers bdeloides, epibionts de gammàrids dulciaqüícoles. Estes troballes, més enllà d'apuntar el potencial biosintètic dels rotífers bdeloides, revela una relació constant entre estos i els gammàrids en ecosistemes dulciaqüícoles. La segona part de la Tesi analitza com dieta i temperatura modulen el metabolisme d'àcids grassos, creixement i supervivència en Gammarus locusta. Els resultats han mostrat que G. locusta experimenta un major creixement, encara que també majors taxes de mortalitat, quan es cultiva a temperatures elevades. La mortalitat en G. locusta també augmenta quan este s'alimenta amb una dieta rica en àcids grassos saturats (SFAs) i sense LC-PUFAs. Els perfils d'àcids grassos en gammàrids reflectixen les dietes consumides, independentment de la temperatura; encara que cal destacar que els gamàrids alimentats amb dietes mancants de LC-PUFAs conserven nivells apreciables d'estos compostos en els seus lípids corporals. A nivell molecular, una dieta sense LC-PUFAs i rica en SFAs disminuïx el catabolisme d'àcids grassos i afavorix la seua acumulació modulant l'expressió de gens involucrats en estos processos. A més, estes mateixes condicions afecten negativament el desenvolupament i supervivència al influir en gens relacionats amb el cicle de muda. A més, s'ha observat que temperatures altes acceleren el desenvolupament i incrementen la mortalitat. Segons estos resultats, pot concloure's que les temperatures elevades i dietes mancants de LC-PUFAs no són adequades per al cultiu de G. locusta quan l'objectiu final és l'obtenció de biomassa rica en estos compostos, ja que estes condicions afecten negativament el perfil nutricional de l'animal i a la seua supervivència. / [EN] The rapid growth of aquaculture has generated a series of problems related to the availability of essential marine ingredients in fish feed, due to their high content of omega-3 long-chain polyunsaturated fatty acids (LC-PUFAs). A highly innovative strategy for obtaining new ingredients rich in LC-PUFAs relies on the intensive culture of organisms that are capable of producing LC-PUFAs from sources that lack them, such as the by-products of agri-food industries. This approach requires understanding the biosynthetic capacity of the organism, and how this can be modulated to increase the accumulation of these compounds. This Doctoral Thesis proposes a series of studies aimed at clarifying the potential of gammarids to apply this strategy. LC-PUFA biosynthesis requires the coordinated action of elongase and desaturase enzymes, involved in the conversion of relatively short and poorly unsaturated fatty acids into LC-PUFAs of high nutritional value. Thus, this Doctoral Thesis has investigated, on one hand, the presence and activity of genes involved in the LC-PUFAs biosynthesis in both marine and freshwater gammarids. On the other hand, we have studied how different diets and temperatures affect fatty acid metabolism, growth and survival, in the marine gammarid Gammarus locusta, both at a physiological and compositional level, and at a molecular level. The results of the first part demonstrate that gammarids have several elongases, but lack desaturases. Three types of elongases (elovl4, elovl6, and elovl1/7-like) were identified in the marine gammarid Echinogammarus marinus, being elovl4 and elovl1/7-like key for LC-PUFA elongation. This same pattern of elongases is also present in their freshwater counterparts. Surprisingly, front-end desaturases (fed), methyl-end (wx-des), and an Elovl2/5-type elongase have been found only in transcriptomes built from freshwater gammarids. Subsequent molecular and phylogenetic analyses have been able to determine that these fed, wx-des, and elovl2/5 sequences are typical of bdelloid rotifers, which are epibionts of freshwater gammarids. These findings, beyond pointing out the biosynthetic potential of bdelloid rotifers, reveal a constant relationship between them and gammarids in freshwater ecosystems. The second part of the Thesis focuses on how diet and temperature modulate fatty acid metabolism, growth and survival in Gammarus locusta. The results have shown that G. locusta experiences greater growth, but also higher mortality rates, when grown at higher temperatures. Mortality in G. locusta also increases when it is fed with a diet rich in saturated fatty acids (SFAs) and lacking LC-PUFAs. Fatty acid profiles in gammarids reflect the diets consumed, regardless of temperature; although it is worth noting that gammarids fed with diets lacking LC-PUFAs still show levels of these compounds in their body lipids. At a molecular level, a diet lacking LC-PUFAs and rich in SFAs decreases the catabolism of fatty acids and enhances their accumulation by modulating the expression of genes involved in these processes. Furthermore, these same conditions negatively affect development and survival by influencing genes related to the molting cycle. In addition, it has been observed that higher temperatures accelerate development and increase mortality. According to these results, it can be concluded that higher temperatures and diets lacking LC-PUFAs are not suitable for the culture of G. locusta when the final outcome is to obtain a biomass rich in these compounds, since these conditions negatively affect the nutritional profile of the animal and its survival. / This research was supported by the ERA-NET BlueBio COFUND Project SIDESTREAM (Grant ID 68), co-funded through national funds provided by the Agencia Estatal de Investigación, Spain, grant no. PCI2020-111960/MCIN/AEI/10.13039/501100011033, the German Federal Ministry of Education and Research (BMBF), FKZ161B0950B, and the Fundação para a Ciência e a Tecnologia, Por- tugal (BLUEBIO/0005/2019). Additional funding was received through the project IMPROMEGA Agencia Española de Investigación, Spain, grant no. RTI2018-095119-B-100, MCIU/AEI/FEDER/UE/ MCIN/AEI/10.13039/501100011033/ and FEDER ‘A way to make Europe / Ribes Navarro, A. (2024). Biosíntesis de ácidos grasos poliinsaturados de cadena larga en gamáridos [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/207006 / Compendio

Acuicultura

Economía circular

Elongasas

Desaturasas

Metabolismo de ácidos grasos

Aquaculture

Circular economy

Elongases

Desaturases

Fatty acid metabolism