A grid matrix-based Raman spectroscopic method to characterize different cell milieu in biopsied axillary sentinel lymph nodes of breast cancer patients.

Raman spectroscopy which is based upon inelastic scattering of photons has a potential to emerge as a noninvasive bedside in vivo or ex vivo molecular diagnostic tool. There is a need to improve the sensitivity and predictability of Raman spectroscopy. We developed a grid matrix-based tissue mapping protocol to acquire cellular-specific spectra that also involved digital microscopy for localizing malignant and lymphocytic cells in sentinel lymph node biopsy sample. Biosignals acquired from specific cellular milieu were subjected to an advanced supervised analytical method, i.e., cross-correlation and peak-to-peak ratio in addition to PCA and PC-LDA. We observed decreased spectral intensity as well as shift in the spectral peaks of amides and lipid bands in the completely metastatic (cancer cells) lymph nodes with high cellular density. Spectral library of normal lymphocytes and metastatic cancer cells created using the cellular specific mapping technique can be utilized to create an automated smart diagnostic tool for bench side screening of sampled lymph nodes. Spectral library of normal lymphocytes and metastatic cancer cells created using the cellular specific mapping technique can be utilized to develop an automated smart diagnostic tool for bench side screening of sampled lymph nodes supported by ongoing global research in developing better technology and signal and big data processing algorithms.

Induction of novel inflorescence traits in Chrysanthemum through 60Co gamma irradiation.

PURPOSE: The novelty in flower color or inflorescence form is recognized as a valuable trait in Chrysanthemum - a potential commercial flower crop with significant worth in global cut flower trade. This study was conducted to irradiate white and orange flowered cultivars of Chrysanthemum with an objective to identify and isolate desirable types representing novelty in flower color and inflorescence form from the irradiated populations. The terminal rooted cuttings of Chrysanthemum exposed to γ-irradiation at 10 or 15 Gy doses were found effective for inducing novel flower color variants in cultivars Thiching Queen and Purnima. The mutant progeny evolved with novel inflorescence traits of these cultivars will enrich the existing germplasm of Chrysanthemum for further utilization in breeding programs. MATERIALS AND METHODS: Two standard type Chrysanthemum cultivars, Thiching Queen and Purnima were exposed to varied doses of γ-rays (0, 5, 10, 15, and 20 Gy) using Cobalt 60 (60Co) as irradiation source for treating rooted cuttings. The irradiated mutant population was evaluated for likely variation in various vegetative and flowering characters compared to non-irradiated (control) plants. RESULTS: In Chrysanthemum cultivars Thiching Queen, seven and 'in Purnima', two flower color variants were isolated from the irradiated populations that were reportedly novel in color and desirable for commercial aspect. The leaf abnormalities were observed in mutant populations exhibiting variation in flower color, shape, and size of leaves. Certain floral abnormalities were also observed in inflorescence that reportedly progressed with increase in dosage of γ-rays irradiation. CONCLUSIONS: This study developed a gamma ray (60Co) induced mutagenesis protocol with potential application to develop novel and desirable mutants in Chrysanthemum.