The chemistry and biochemistry of melon fruit development and quality

  • You Ming Wang

Western Sydney University thesis: Master's thesis

Abstract

A number of methods for the analysis of free amino acids in melon fruit have been evaluated experimentally. Analysis of their tBDMS derivatives by GC (gas chromatography) was found to be the most suitable for the mix of free amino acid found in the melon matrix. It affords good yields of amino acid derivatives with excellent gas chromatographic properties and characteristic mass spectra. The single-step derivatization procedure is highly reproducible and allows simultaneous analysis of asparagine and glutamine together with their corresponding acids. Changes in amino acids, sugars, the principal acids, volatiles and minerals in the free form were studied in the fruit mesocarp during development, ripening and storage of the fruits. Sucrose was the principal sugar, absent in young fruit but showing a dramatic increase during ripening while the levels of fructose and glucose remained constant during the whole course of fruit growth or slightly decreased during ripening and storage. The quantitative determination of 22 free amino acids was achieved by GC analysis using the method developed. Total aroma volatiles were determined using a headspace-gas chromatographic technique. They increased and reached a maximum value just before fruit full slip. Most of the esters characteristic of melon aroma were absent in young fruit but developed at the ripening stage. Changes in the quantities of mineral nutrients present in the fruits were determined by ICP-AES analysis. The concentrations of most elements increased thoughout the fruit development except for Ca which decreased markedly and Cu which decreased during early growth then fluctuated around lower values later in the development stage. All of the above changes can be related to the metabolic activity during fruit growth and maturation. Statistical analysis showed changes in TV, TSS, TS, pH, some free amino acids and some minerals were strongly correlated.
Date of Award1994
Original languageEnglish

Keywords

  • melon
  • fruit
  • aroma
  • volatiles
  • alcohol
  • gas
  • chromatography
  • esters
  • derivatives
  • temperature
  • mass
  • ripening
  • amino acids
  • growth
  • minerals

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