Inhibitors of phenylalanine ammonia-lyase: substituted derivatives of 2-aminoindane-2-phosphonic acid and 1-aminobenzylphosphonic acid

Six derivatives of 2-aminoindane-2-phosphonic acid and 1-aminobenzylphosphonic acid were synthesized. The compounds were tested both as inhibitors of buckwheat phenylalanine ammonia-lyase (in vitro) and as inhibitors of anthocyanin biosynthesis (in vivo). (+/-)-2-Amino-4-bromoindane-2-phosphonic acid was found to be the strongest inhibitor from investigated compounds. The results obtained are a basis for design of phenylalanine ammonia-lyase inhibitors useful in the enzyme structure studies in photo labelling experiments.     

Inhibition of phenylalanine ammonia-lyase by cinnamic acid derivatives and related compounds

Thirty-five derivatives of cinnamic acid and related compounds were tested for inhibition against phenylalanine ammonia-lyase (PAL) derived from sweet potato, pea and yeast. Caffeic and gallic acids showed inhibition against PAL originating from higher plants, but not against yeast PAL. In contrast, yeast PAL was specifically inhibited by p-hydroxycinnamic and p-hydroxybenzoic acids. The results suggest that caffeic and gallic acids may act as regulatory substances in phenylpropanoid metabolism in higher plants. Inhibition experiments with synthetic cinnamic acid derivatives have revealed that the presence of a hydrophobic aromatic ring, α,β-double bond and carboxyl group is essential for inhibitory activity. 2-Naphthoic acid which fulfills these structural requirements showed a strong inhibition. The size and shape of the active site is discussed from structure-activity relationships of cinnamic acid derivatives. o-Chlorocinnamic acid, one of the strongest inhibitors found in this study showed an inhibitory effect on the growth of the roots of rice seedlings.     

Synthesis of phenylalanine ammonia-lyase in anthocyanin-containing and anthocyanin-free callus cells of Daucus carota L.

When callus cells of Daucus carota are grown on a medium containing gibberellic acid (GA₃) in a physiological concentration of 3x10^-6 M the cells cease to accumulate anthocyanins. This anthocyanin-free cell line has a very low activity of phenylalanine ammonia-lyase. After density labelling with D₂O an intensive de novo synthesis of the phenylalanine ammonia-lyase (E.C. 4.3.1.5; PAL) in the anthocyanin-containing cells does occur. 58% of the C-bound H-atoms are replaced by deuterium. The anthocyanin-free cells show only a very low enzyme synthesis which is difficult to detect with density labelling experiments. To ascertain that de novo synthesis occurs in the anthocyanin-free cells, the incorporation of ¹⁴C-labelled amino acids into the partially purified enzyme protein was measured after separation of the protein a) in CsCl gradients and b) on polyacrylamide gels. In both cases the enzyme bears ¹⁴C-label. These results suggest that in the anthocyanin-free cells de novo synthesis of PAL is still occuring but the synthesis is reduced in comparison to the anthocyanin-containing cells.Abbreviations GA₃ gibberellic acid - PAL phenylalanine ammonia-lyase (E.C.4.3.1.5) - DCb anthocyanin-containing cells - DCw anthocyanin-free cells     

Phytochrome-mediated induction of phenylalanine ammonia-lyase in the cotyledons of tomato (Lycopersicon esculentum Mill.) plants

Phenylalanine ammonia-lyase (PAL; EC 4.3.1.5.) induction in cotyledons from 96-h dark-grown Lycopersicon esculentum Mill. was studied in response to continuous light and hourly light pulses (blue, red, far red). The increases of PAL promoted by blue and red pulses are reversed completely by immediately following 758 nm irradiations. The response to continuous red light could be substituted for by hourly 6-min red light pulses. The effect of continuous red treatments is mainly due to a multiple induction effect of phytochrome. In contrast to red light, hourly light pulses with far red and blue, light can only partially substitute for continuous irradiation. The continuous blue response could be due to a combination of a multiple induction response and of a high irradiance response of phytochrome. The continuous far red response, could represent a high irradiance response of phytochrome. Dichromatic irradiations indicate that phytochrome is the photoreceptor controlling the light response (PAL) in tomato seedlings.Abbreviations Norflurazon NF-4-chloro-5-(methylamino)-2-(,,,-trifluoro-m-tolyl)-3 (2H) pyridazinone - PAL phenylalanine ammonia-lyase - phytochrome photoequilibrium P_fr/P_tot - P_fr far-red absorbing form of phytochrome - P_r red absorbing form of phytochrome - P_tot total phytochrome: P_r+P_fr     

L-Phenylalanine ammonia-lyase fromPhaseolus vulgaris: Modulation of the levels of active enzyme bytrans-cinnamic acid

The extractable activity ofl-phenylalanine ammonia-lyase (PAL; EC 4.3.1.5) in cell suspension cultures of bean (Phaseolus vulgaris) is greatly induced following exposure to an elicitor preparation from the cell walls of the phytopathogenic fungusColletotrichum lindemuthianum. Following exogenous application oftrans-cinnamic acid (the product of the PAL reaction) to elicitor-induced cells, the activity of the enzyme rapidly declines. Loss of enzyme activity is accompanied by inhibition of the rate of synthesis of PAL subunits, as determined by [³⁵S]methionine pulse-labelling followed by specific immunoprecipitation; this is insufficient to account for the rapid loss of PAL enzyme activity. Pulse-chase and immune blotting experiments indicate that cinnamic acid does not affect the rate of degradation of enzyme subunits, but rather mediates inactivation of the enzyme. A non-dialysable factor from cinnamicacid-treated bean cells stimulates removal of PAL activity from enzyme extracts in vitro; this effect is dependent on the presence of cinnamic acid. Such loss of enzyme activity in vitro is accompanied by an apparent loss or reduction of the dehydroalanine residue of the enzyme's active site, as detected by active-site-specific tritiation, although levels of immunoprecipitable enzyme subunits do not decrease. Furthermore, cinnamic-acid-mediated loss of enzyme activity in vivo is accompanied, in pulse-chase experiments, by a greater relative loss of³⁵S-labelled enzyme subunits precipitated by an immobilised active-site affinity ligand than of subunits precipitated with anti-immunoglobulin G. It is therefore suggested that a possible mechanism for cinnamic-acid-mediated removal of PAL activity may involve modification of the dehydroalanine residue of the enzyme's active site.Abbreviations AOPP l--aminoxy--phenylpropionic acid - CA trans-cinnamic acid - PAGE polyacrylamide gel electrophoresis - PAL l-phenylalanine ammonia-lyase - SDS sodium dodecyl sulphate     

氨基茚磷酸(AIP)和氨基氧乙酸(AOA)对茉莉酸甲酯诱导的烟草一些酶活性的影响

用茉莉酸甲酯(MJ,1mg ml^-1)处理培养在含0．1mmol／L AIP(水杨酸合成抑制剂)和／或1mmol／L AOA(乙烯合成抑制剂)的MS培养基上的烟草愈伤组织,测定某些酶的活性。结果表明：MJ明显提高过氧化物酶(POD)、β1,3-葡聚糖苷酶和几丁质外切酶的活性,略微促进苯丙氨酸解氨酶(PAL)、多酚氧化酶(PPO)的活性,抑制几丁内切酶的活性,而AOA和AIP则明显抑制MJ对POD和β1,3-葡聚糖苷酶活性的诱导作用,但对MJ诱导的PAL和PPO的活性影响很小,AOA和AIP可能作为逆境因子促进PAL的活性。AOA能部分解除MJ对几丁内切酶的抑制作用,但对MJ诱导的几丁外切酶的影响较小,而AIP抑制几丁内切酶的活性,也抑制MJ对此酶的诱导作用。因此我们认为：MJ对POD、PPO和几丁内切酶的影响可能是通过乙烯途径,对β1,3-葡聚糖苷酶和几丁外切酶的影响可能是通过水杨酸(SA)途径,而对PAL的影响可能是通过其它途径。     

Inhibition of phenylalanine ammonia-lyase activity causes the depression of lignin accumulation of secondary wall thickening in isolatedZinnia mesophyll cells

Summary Isolated mesophyll cells ofZinnia elegans L. cv. Canary Bird differentiate into tracheary elements in differentiation (D) medium. These elements develop lignified secondary wall thickenings. The influence of 2-aminoindan-2-phosphonic acid (AIP), an inhibitor of phenylalanine ammonia-lyase (PAL), on lignification ofZinnia tracheary elements was examined. The mesophyll cells were cultured in D and AIP media. The latter medium, in which 100 M AIP was added to the D medium, inhibited PAL activity, though the differentiation proceeded. Morphological differences of secondary wall thickenings cultured in these two types of media were investigated under an UV microscope and a transmission electron microscope. The secondary wall thickenings at 96 h in the D medium showed strong UV absorption. The fibrillar structure of the thickenings observed clearly at 72 h was covered with electron opaque materials by 96 h. The secondary wall thickenings at 96 h in the AIP medium showed weak UV absorption. The thickenings at 96 h had a cracked appearance. Furthermore, the thickenings showed a little irregular or wavy arrangement of cellulose microfibrils and had many pores and spaces between microfibrils. From these results, the role of lignin accumulation in the formation of secondary wall thickenings was discussed.Abbreviations AIP 2-aminoindan-2-phosphonic acid - PAL phenylalanine ammonia-lyase     

Stress enhances the gene expression and enzyme activity of phenylalanine ammonia-lyase and the endogenous content of salicylic acid to induce flowering in pharbitis

The involvement of salicylic acid (SA) in the regulation of stress-induced flowering in the short-day plant pharbitis (also called Japanese morning glory) Ipomoea nil (formerly Pharbitis nil) was studied. Pharbitis cv. Violet was induced to flower when grown in 1/100-strength mineral nutrient solution under non-inductive long-day conditions. All fully expanded true leaves were removed from seedlings, leaving only the cotyledons, and flowering was induced under poor-nutrition stress conditions. This indicates that cotyledons can play a role in the regulation of poor-nutrition stress-induced flowering. The expression of the pharbitis homolog of PHENYLALANINE AMMONIA-LYASE, the enzyme activity of phenylalanine ammonia-lyase (PAL; E.C. 4.3.1.5) and the content of SA in the cotyledons were all up-regulated by the stress treatment. The Violet was also induced to flower by low-temperature stress, DNA demethylation and short-day treatment. Low-temperature stress enhanced PAL activity, whereas non-stress factors such as DNA demethylation and short-day treatment decreased the activity. The PAL enzyme activity was also examined in another cultivar, Tendan, obtaining similar results to Violet. The exogenously applied SA did not induce flowering under non-stress conditions but did promote flowering under weak stress conditions in both cultivars. These results suggest that stress-induced flowering in pharbitis is induced, at least partly, by SA, and the synthesis of SA is promoted by PAL.     

Rapid induction of ethylene biosynthesis in cultured parsley cells by fungal elicitor and its relationship to the induction of phenylalanine ammonia-lyase

The biosynthesis of ethylene was examined in suspension-cultured cells of parsley (Petroselinum hortense) treated with an elicitor from cell walls of Phytophthora megasperma. Untreated cells contained 50 nmol g^-1 of the ethylene precursor, 1-aminocyclopropane-1-carboxylic acid (ACC), and produced ethylene at a rate of about 0.5 nmol g^-1 h^-1. Within 2 h after addition of elicitor to the culture medium, the cells started to produce more ethylene and accumulated more ACC. Exogenously added ACC did not increase the rate of ethylene production in control or elicitor-treated cells, indicating that the enzyme converting ACC to ethylene was limiting in both cases. The first enzyme in ethylene biosynthesis, ACC synthase, was very rapidly and transiently induced by the elicitor treatment. Its activity increased more than tenfold within 60 min. Density labelling with ²H₂O showed that this increase was caused by the denovo synthesis of the enzyme protein. Cordycepin and actinomycin D did not affect the induction of ACC synthase, indicating that the synthesis of new mRNA was not required. The peak of ACC-synthase activity preceded the maximal phenylalanine ammonia-lyase (PAL) activity by several hours. Exogenously supplied ethylene or ACC did not induce PAL. However, aminoethoxyvinylglycine, an inhibitor of ACC synthase, suppressed the rise in ethylene production in elicitor-treated cells and partially inhibited the induction of PAL. Exogenously supplied ACC reversed this inhibition. It is concluded that induction of the ethylene biosynthetic pathway is a very early symptom of elicitor action. Although ethylene alone is not a sufficient signal for PAL induction, the enhanced activity of ACC synthase and the ethylene biosynthetic pathway may be important for the subsequent induction of PAL.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - AVG aminoethoxyvinylglycine - PAL phenylalanine ammonia-lyase     

Purification, cloning, and functional expression of phenylalanine aminomutase: the first committed step in Taxol side-chain biosynthesis

The biomechanical functions of articular cartilage are governed largely by the composition and density of its specialized extracellular matrix. Relationships between matrix density and functional indices such as mechanical properties or interstitial solute diffusivities have been previously explored. However, direct correlations between mechanical properties and solute transport parameters have received less attention, despite potential application of this information for cartilage functional assessment both in vivo and in vitro. The objective of this study was therefore to examine relationships among solute diffusivities, mechanical properties, and matrix density of compressed articular cartilage. Matrix density varied due to natural variation among explants and due to applied static compression. Matrix density of statically compressed cartilage explants was characterized by glycoaminoglycan (GAG) weight fraction and fluid volume fraction, while diffusion coefficients of a wide range of solutes were measured to characterize the transport environment. Explant mechanical properties were characterized by a non-linear Young's modulus (axial stress-strain ratio) and a non-linear Poisson's ratio (radial-to-axial strain ratio). Solute diffusivities were consistently correlated with Young's modulus, as well as with explant GAG weight and fluid volume fractions. Therefore, in vitro mechanical tests may provide a means of assessing transport environments in cartilage-like materials, while in vivo measurements of solute transport (for example with magnetic resonance imaging) may be a useful complement in identifying localized differences in matrix density and mechanical properties.     

Isolation and genetic mapping of a Coffea canephora phenylalanine ammonia-lyase gene (CcPAL1) and its involvement in the accumulation of caffeoyl quinic acids

Biosynthesis of caffeoylquinic acids occurs via the phenylpropanoid pathway in which the phenylalanine ammonia-lyase (PAL) acts as a key-control enzyme. A full-length cDNA (pF6), corresponding to a PAL gene (CcPAL1), was isolated by screening a Coffea canephora fruit cDNA library and its corresponding genomic sequence was characterized. Amplification of total DNA from seven Coffea species revealed differences in intronic length. This interspecific polymorphism was used to locate the gene on a genetic map established for a backcross progeny between Coffea pseudozanguebariae and C. dewevrei. The CcPAL1 gene was found on the same linkage group, but genetically independent, as a caffeoyl-coenzyme A-O-methyltransferase gene, another gene intervening in the phenylpropanoid pathway. In the same backcross, a lower caffeoylquinic acid content was observed in seeds harvested from plants harbouring the C. pseudozanguebariae CcPAL1 allele. Involvement of the CcPAL1 allelic form in the differential accumulation of caffeoylquinic acids in coffee green beans is then discussed.     

Quantitative 2H NMR analysis of deuterium distribution in petroselinic acid isolated from parsley seed

We have previously demonstrated that 2H distribution in fatty acids is non-statistical and can be related to isotopic discrimination during chain extension and desaturation. Petroselinic acid (C18:1 Delta(6)), a fatty acid characteristic of the seeds of the Apiaceae, has been shown to be biosynthesised from palmitoyl-ACP (C16:0) by two steps, catalysed by a dedicated Delta(4)-desaturase and an elongase. We have now demonstrated that the isotopic profile resulting from this pathway is similar to that of the classical plant fatty acid pathway but that the isotopic fingerprint from both the desaturase and elongase steps show important differences relative to oleic and linoleic acid biosynthesis.     

Molecular cloning of phenylalanine ammonia-lyase cDNA and classification of varieties and cultivars of tea plants (Camellia sinensis) using the tea PAL cDNA probe

Tea (Camellia sinensis) phenylalanine ammonia-lyase (PAL) cDNA was cloned using labelled rice PAL cDNA as a probe. The PAL genes of the tea plant were investigated by restriction fragment length polymorphism (RFLP) analysis using tea PAL cDNA. PAL genetic variation in tea plants was much larger than predicted due to the presence of various hybridized fragments in the Assam hybrids, which are hybrids between C. sinensis var assamica and var sinensis. On the other hand, hybridized band patterns of Japanese green tea cultivars belonging to var sinensis could be divided into five groups. Furthermore, a short-length PAL probe, about 280 bp including the 3 untranslated sequence, detected 3 DNA fragments of different lengths, which were named A, B and D. An experiment tracing the PAL gene heredity showed that A, B and D fragments were inherited according to the Mendelian monogenic ratio. Therefore, PAL genes identifiable by A, B and D fragments are multiple alleles, and the PAL gene is present as a single gene in the tea haploid genome. It was also clear that five groups of Japanese green tea cultivars were characterized by the composition of these PAL fragments. From RFLP analysis using tea PAL cDNA, we succeeded in distinguishing Assam hybrids and Japanese green tea cultivars with high and low catechin content, respectively, and in grouping Japanese green tea at the cultivar level.     

Rapid induction of phenylalanine ammonia-lyase and chalcone synthase mRNAs during fungus infection of soybean (Glycine max L.) roots or elicitor treatment of soybean cell cultures at the onset of phytoalexin synthesis

The differential regulation of the activities and amounts of mRNAs for two enzymes involved in isoflavonoid phytoalexin biosynthesis in soybean was studied during the early stages after inoculation of primary roots with zoospores from either race 1 (incompatible, host resistant) or race 3 (compatible, host susceptible) of Phytophthora megasperma f.sp. glycinea, the causal fungus of root rot disease. In the incompatible interaction, cloned cDNAs were used to demonstrate that the amounts of phenylalanine ammonia-lyase and chalcone synthase mRNAs increased rapidly at the time of penetration of fungal germ tubes into epidermal cell layers (1–2 h after inoculation) concomitant with the onset of phytoalxxin accumulation; highest levels were reached after about 7 h. In the compatible interaction, only a slight early enhancement of mRNA levels was found and no further increase occurred until about 9 h after inoculation. The time course for changes in the activity of chalcone synthase mRNA also showed major differences between the incompatible and compatible interaction. The observed kinetics for the stimulation of mRNA expression related to phytoalexin synthesis in soybean roots lends further support to the hypothesis that phytoalexin production is an early defense response in the incompatible plant-fungus interaction. The kinetics for the enhancement of mRNA expression after treatment of soybean cell suspension cultures with a glucan elicitor derived from P. megasperma cell walls was similar to that measured during the early stages of the resistant response of soybean roots.Abbreviations cDNA copy DNA - CHS chalcone synthase - PAL phenylalanine ammonia-lyase     

Modification of l-phenylalanine ammonia-lyase in soybean cell suspension cultures by 2-aminooxyacetate and l-2-aminooxy-3-phenylpropionate

Suspension-cultured cells of soybean (Glycine max (L.) Merr. cv. Kanrich) produce large amounts of phenylalanine ammonia-lyase (PAL; EC 4.3.1.5), the first enzyme of phenylpropanoid metabolism, during growth. 2-Aminooxyacetic acid (AOA) and l-2-aminooxy-3-phenylpropionic acid (l-AOPP) inhibit the enzyme competitively in vitro and have been used for in vivo studies. The amount of extractable enzyme in the cells and their utilization of NO ₃ ^– and NH ₃ ⁺ are reduced upon the addition of AOA. When AOA was added at various times during growth, the appearance of additional enzyme activity was prevented but enzyme already formed was not inhibited. No evidence was obtained for the presence of an inhibitor in the extracts and AOA inhibition in vitro was readily reversible. It is conculded that AOA acts to inhibit the formation of PAL in suspension-cultured soy bean cells. In vitro inhibition of soybean PAL by l-AOPP could not be reversed; in contrast, the inhibition of maize (Zea mays L.) PAL was readily reversible. Added l-AOPP, which was rapidly taken up by the soybean cells, prevented the large increase in enzyme activity. Although PAL activity was blocked in the cultures, no appreciable increase in phenylalanine content could be detected in cell extracts. The response of soybean cell suspensions to l-AOPP addition thus differs from that of other tissues which in presence of l-AOPP show an increase in PAL activity and an accumulation of phenylalanine.Abbreviations AOA 2-aminooxyacetic acid - l-AOPP l-2-aminoxy-3-phenylpropionic acid - PAL l-phenylalanine ammonialyase (EC4.3.1.5)     

Kinetic analysis of plasminogen activator inhibitor type-2: urokinase complex formation and subsequent internalisation by carcinoma cell lines

The overexpression of urokinase (uPA), which plays a key role in tumour invasion and metastasis, is an established prognostic marker and potential therapeutic target. Plasminogen activator inhibitor type 2 (PAI-2), an efficient and specific inhibitor of uPA, has been shown to selectively deliver potent cytotoxins to tumour cells. However, a direct quantitative analysis of both the inhibition kinetics and subsequent fate of PAI-2 upon interaction with cell-surface uPA has not been previously undertaken. In this study, we analysed specific PAI-2 binding to receptor-bound uPA on human breast and prostate cancer cell lines to directly measure inhibition kinetics. Cell-surface uPA:PAI-2 complex formation, which is reflective of complete uPA inhibition, was found to be very efficient (inactivation constant [K(I)] = 60-80 pM, depending on cell line used) and rapid (inactivation rate constant [k(inact)] = 0.32-0.47 min(-1) at 37 degrees C, depending on cell line used). To directly quantify and visualise cellular internalisation and localisation, we developed a novel assay based on the use of PAI-2 labelled with Alexa(488) fluorochrome and a polyclonal antibody to quench Alexa(488) fluorescence. The efficient and rapid formation of uPA:PAI-2 complexes was thus shown to be associated with specific and rapid internalisation of PAI-2, which could be localised within endosomes and lysosomes. PAI-2 was subsequently degraded, presumably within lysosomes. This study is the first to provide definitive evidence for uPA/uPAR-mediated PAI-2 endocytosis.     

水杨酸诱发的NO介导了丹参悬浮培养细胞中丹酚酸B的生物合成

水杨酸(SA)可诱导丹参悬浮培养细胞中一氧化氮(NO)产生、苯丙氨酸解氨酶(PAL)活化及丹酚酸B(Sal B)的生物合成。为了阐明NO对丹参悬浮培养细胞中Sal B生物合成的影响及作用机理,本实验利用NO供体硝普钠(SNP)、NO合成酶抑制剂L-NNA(Nω-nitro-L-arginine)、NO淬灭剂c PITO(carboxy-2-phenyl-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide)以及PAL抑制剂L-AOPP(L-2-aminooxygen-3-phenyl acrylic acid)分别处理丹参悬浮培养细胞,并对其胞内NO水平、PAL活性和Sal B积累量进行了检测。结果表明,硝普钠(SNP)处理显著促进了NO产生、PAL活性和Sal B的积累,而L-NNA和c PITO抑制上述过程,说明NO诱发PAL活性提高并参与了SA诱导的Sal B生物合成;L-AOPP显著抑制了PAL活性及Sal B积累,却对NO产生没有显著影响,揭示NO位于PAL的上游。这说明SA诱发的NO产生、PAL活化及Sal B合成之间存在因果关系,即NO通过激活PAL触发Sal B生物合成。     

Phenylpropanoid compounds and disease resistance in transgenic tobacco with altered expression of L-phenylalanine ammonia-lyase

Tobacco plants over-expressing L-phenylalanine ammonia-lyase (PAL(+)) produce high levels of chlorogenic acid (CGA) and exhibit markedly reduced susceptibility to infection with the fungal pathogen Cercospora nicotianae, although their resistance to tobacco mosaic virus (TMV) is unchanged. Levels of the signal molecule salicylic acid (SA) were similar in uninfected PAL(+) and control plants and also following TMV infection. In crosses of PAL(+) tobacco with tobacco harboring the bacterial NahG salicylate hydroxylase gene, progeny harboring both transgenes lost resistance to TMV, indicating that SA is critical for resistance to TMV and that increased production of phenylpropanoid compounds such as CGA cannot substitute for the reduction in SA levels. In contrast, PAL(+)/NahG plants showed strongly reduced susceptibility to Cercospora nicotianae compared to the NahG parent line. These results are consistent with a recent report questioning the role of PAL in SA biosynthesis in Arabidopsis, and highlight the importance of phenylpropanoid compounds such as CGA in plant disease resistance.     

Requirement of mesodermal retinoic acid generated by Raldh2 for posterior neural transformation

Studies in amphibian embryos have suggested that retinoic acid (RA) may function as a signal that stimulates posterior differentiation of the nervous system as postulated by the activation-transformation model for anteroposterior patterning of the nervous system. We have tested this hypothesis in retinaldehyde dehydrogenase-2 (Raldh2) null mutant mice lacking RA synthesis in the somitic mesoderm. Raldh2^−/− embryos exhibited neural induction (activation) as evidenced by expression of Sox1 and Sox2 along the neural plate, but differentiation of spinal cord neuroectodermal progenitor cells (posterior transformation) did not occur as demonstrated by a loss of Pax6 and Olig2 expression along the posterior neural plate. Spinal cord differentiation in Raldh2^−/− embryos was rescued by maternal RA administration, and during the rescue RA was found to act directly in the neuroectoderm but not the somitic mesoderm. RA generated by Raldh2 in the somitic mesoderm was found to normally travel as a signal throughout the mesoderm and neuroectoderm of the trunk and into tailbud neuroectoderm, but not into tailbud mesoderm. Raldh2^−/− embryos also exhibited increased Fgf8 expression in the tailbud, and decreased cell proliferation in tailbud neuroectoderm. Our findings demonstrate that RA synthesized in the somitic mesoderm is necessary for posterior neural transformation in the mouse and that Raldh2 provides the only source of RA for posterior development. An important concept to emerge from our studies is that the somitic mesodermal RA signal acts in the neuroectoderm but not mesoderm to generate a spinal cord fate.