Cloning and molecular analysis of HlbZip1 and HlbZip2 transcription factors putatively involved in the regulation of the lupulin metabolome in hop (Humulus lupulus L.).

Hop (Humulus lupulus L.), the essential source of beer flavor is of interest from a medicinal perspective in view of its high content in health-beneficial terpenophenolics including prenylflavonoids. The dissection of biosynthetic pathway(s) of these compounds in lupulin glands, as well as its regulation by transcription factors (TFs), is important for efficient biotechnological manipulation of the hop metabolome. TFs of the bZIP class were preselected from the hop transcriptome using a cDNA-AFLP approach and cloned from a cDNA library based on glandular tissue-enriched hop cones. The cloned TFs HlbZIP1A and HlbZIP2 have predicted molecular masses of 27.4 and 34.2 kDa, respectively, and both are similar to the group A3 bZIP TFs according to the composition of characteristic domains. While HlbZIP1A is rather neutral (pI 6.42), HlbZIP2 is strongly basic (pI 8.51). A truncated variant of HlbZIP1 (HlbZIP1B), which is strongly basic but lacks the leucine zipper domain, has also been cloned from hop. Similar to the previously cloned HlMyb3 from hop, both bZIP TFs show a highly specific expression in lupulin glands, although low expression was observed also in other tissues including roots and immature pollen. Comparative functional analyses of HlbZip1A, HlbZip2, and subvariants of HlMyb3 were performed in a transient expression system using Nicotiana benthamiana leaf coinfiltration with Agrobacterium tumefaciens strains bearing hop TFs and selected promoters fused to the GUS reference gene. Both hop bZIP TFs and HlMyb3 mainly activated the promoters of chalcone synthase chs_H1 and the newly cloned O-methyl transferase 1 genes, while the response of the valerophenone synthase promoter to the cloned hop TFs was very low. These analyses also showed that the cloned bZIP TFs are not strictly G-box-specific. HPLC analysis of secondary metabolites in infiltrated Petunia hybrida showed that both hop bZIP TFs interfere with the accumulation and the composition of flavonol glycosides, phenolic acids, and anthocyanins, suggesting the possibility of coregulating flavonoid biosynthetic pathways in hop glandular tissue.

HlMyb3, a putative regulatory factor in hop (Humulus lupulus L.), shows diverse biological effects in heterologous transgenotes.

A hop-specific cDNA library from glandular tissue-enriched hop cones was screened for Myb transcription factors. cDNA encoding for R2R3 Myb, designated HlMyb3, was cloned and characterized. According to the amino acid (aa) sequence, HlMyb3 shows the highest homology to GhMyb5 from cotton and is unrelated to the previously characterized HlMyb1 from the hop. Southern blot analyses indicated that HlMyb3 is a unique gene, which was detected in various Humulus lupulus cultivars, but not in Humulus japonicus. Reverse transcription and real-time PCR revealed the highest levels of HlMyb3 mRNA in hop cones at a late stage of maturation and in colored petiole epidermis, while the lowest levels were observed in hop flowers. Two alternative open reading frames starting in the N-terminal domain of HlMyb3, encoding for proteins having 269 and 265 amino acids with apparent molecular masses of 30.3 and 29.9 kDa, respectively, were analyzed as transgenes that were overexpressed in Arabidopsis thaliana, Nicotiana benthamiana, and Petunia hybrida plants. Transformation with the longer 269 aa variant designated l-HlMyb3 led to a flowering delay and to a strong inhibition of seed germination in A. thaliana. Nearly complete flower sterility, dwarfing, and leaf curling of P. hybrida and N. benthamiana l-HlMyb3 transgenotes were noted. On the contrary, the shorter 265-aa-encoding s-HlMyb3 transgene led in A. thaliana to the stimulation of initial seed germination, to fast initiation of the lateral roots, and to quite specific branching phenotypes with many long lateral stems formed at angles near 90 degrees . Limited plant sterility but growth stimulation and rather branched phenotypes were evident for s-HlMyb3 transgenotes of P. hybrida and N. benthamiana. It was found that both HlMyb3 transgenes interfere in the accumulation and composition of flavonol glycosides and phenolic acids in transformed plants. These effects on heterologous transgenotes suggest that the HlMyb3 gene may influence hop morphogenesis, as well as metabolome composition during lupulin gland maturation.