NANOPLATAFORMA FLUORESCENTE PARA RECONHECIMENTO DE SACARÍDEOS BASEADA EM PONTOS QUÂNTICOS E CRAMOLL

Doi: 10.47094/978-65-6036-344-1/12-13

PALAVRAS CHAVE: Espectroscopia. Bioconjugação. Glicobiologia.

KEYWORDS: Spectroscopy. Bioconjugation. Glycobiology.

ABSTRACT:
Introduction: Carbohydrates are essential molecules for life, as they are involved in different biological processes, including: (i) cell-cell interaction; (ii) cell differentiation and growth and (iii) intracellular trafficking. Therefore, the detection of carbohydrates can assist in the diagnosis and monitoring of various diseases, contributing to the development of high-precision therapeutic and diagnostic methods[1]. One of the ways to detect these carbohydrates, in addition to the conventional use of enzymes, is using carbohydrate recognition molecules, such as the Cramoll-1,4 lectin, here abbreviated as Cramoll[2]. This lectin is extracted from the seeds of Cratylia mollis, a legume from the semi-arid region of Northeastern Brazil. Therefore, the combination of Cramoll with quantum dots (PQs), semiconductor nanocrystals with unique optical properties, may enable the development of a nanoplatform with high biotechnological potential, as this nanosystem may be capable of detecting glucose/mannose in suspension[ 3,4]. Objectives: Develop a fluorescent nanoplatform based on PQs and the Cramoll lectin for detecting carbohydrates in suspension.

Autores

• Adriana Fontes

• João Victor Araújo de Lima

• Maria Tereza dos Santos Correia

• Mariana Paola Cabrera

• Paulo Euzébio Cabral Filho

• Pedro Henrique Alves de Melo

• Weslley Felix de Oliveira